Pouch, lidded container, and tube

ABSTRACT

A first packaging material includes at least one layer located in both a first region and a second region. A second packaging material includes at least one layer located in both the first region and the second region. The hole includes a proximate position where the distance between the hole and the outer edge of the pouch in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through the center of the pouch and the center of the hole extends. A communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction. The outline of the communication part that extends from the hole to the outer edge includes a first line and a second line. The first line is located closer to the proximate position than is the second line. In the center-of-gravity direction, the distance from a first connection point to the outer edge is greater than the distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.

BACKGROUND Technical Field

The present invention relates to a pouch, a lidded container, and a tube that each include a containment part for containing contents.

Background Art

As disclosed in, for example, PTL 1, it is common to provide an upper portion of a pouch with a pre-formed through-hole, and pass a hanging implement such as a hook through the through-hole to hang the pouch on the hanging implement for display.

CITATION LIST Patent Literature

-   PTL 1: Japanese Unexamined Patent Application Publication No.     2003-11990

SUMMARY

Hanging a plurality of pouches described in PTL 1 on the hanging implement requires an operation that involves first passing the through-hole of each pouch through the distal end portion of the hanging implement, and then moving the pouch along a support of the hanging implement.

It is an object of the present invention to provide a pouch, a lidded container, a tube, and other packages that allow the above-mentioned issue to be effectively addressed.

According to the present invention, there is provided a pouch, the pouch having a containment part formed by joining a first packaging material and a second packaging material together, the first packaging material being located at a first face of the pouch, the second packaging material being located at a second face of the pouch. The pouch includes:

a first region overlapping the containment part in plan view;

a second region located between the containment part and an outer edge of the pouch in plan view, the second region including a seal that joins the first packaging material and the second packaging material together;

a hole located in the second region and penetrating the first packaging material and the second packaging material; and

a communication part extending from the hole to the outer edge of the pouch and penetrating the first packaging material and the second packaging material.

The first packaging material includes at least one layer located in both the first region and the second region.

The second packaging material includes at least one layer located in both the first region and the second region.

The hole includes a proximate position where a distance between the hole and the outer edge of the pouch in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the pouch and a center of the hole extends.

The communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction.

An outline of the communication part that extends from the hole to the outer edge includes a first line and a second line.

The first line is located closer to the proximate position than is the second line.

In the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.

In another exemplary configuration of the pouch according to the present invention, the outer edge of the pouch includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction,

the communication part is connected with the hole at a position that is spaced apart from the proximate position in a second direction orthogonal to the first direction, and

in the first direction, the first connection point where the first line is connected with the hole is located closer to the second edge than is the proximate position.

In another exemplary configuration of the pouch according to the present invention, the first line and the second line are at least partially in contact with each other.

In another exemplary configuration of the pouch according to the present invention, the communication part includes a slit where the first line and the second line are in contact with each other, and a notch located closer to the outer edge than is the slit and where the first line and the second line are not in contact with each other.

In another exemplary configuration of the pouch according to the present invention, the first line and the second line are not in contact with each other.

In another exemplary configuration of the pouch according to the present invention, the second line includes a curved portion located at a position where the second line is connected with the outer edge.

In another exemplary configuration of the pouch according to the present invention, the proximate position and the first connection point have a distance from each other of greater than or equal to 2 mm in the direction orthogonal to the center-of-gravity direction.

In another exemplary configuration of the pouch according to the present invention, a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.

In another exemplary configuration of the pouch according to the present invention, the second region includes:

an outer-edge-side seal extending along the outer edge of the pouch;

a containment-part-side seal in contact with the containment part in plan view; and

a reinforcing part located between the outer-edge-side seal and the containment-part-side seal and surrounding the hole, the reinforcing part being thicker than the outer-edge-side seal and the containment-part-side seal.

In another exemplary configuration of the pouch according to the present invention, the reinforcing part includes a reinforcement located between the first packaging material and the second packaging material.

According to the present invention, there is provided a lidded container, the lidded container having a containment part sealed by joining a first packaging material and a second packaging material together, the first packaging material constituting a lid, the second packaging material constituting a container. The lidded container includes:

a first region overlapping the containment part in plan view;

a second region located between the containment part and an outer edge of each of the lid and the container in plan view, the second region including a seal that joins the first packaging material and the second packaging material together;

a hole located in the second region and penetrating the first packaging material and the second packaging material; and

a communication part extending from the hole to the outer edge of each of the lid and the container and penetrating the first packaging material and the second packaging material.

The first packaging material includes at least one layer located in both the first region and the second region.

The second packaging material includes at least one layer located in both the first region and the second region.

The outer edge of each of the lid and the container includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction.

The hole includes a proximate position where a distance between the hole and the outer edge of the lidded container in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the lidded container and a center of the hole extends.

The communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction.

An outline of the communication part that extends from the hole to the outer edge includes a first line and a second line.

The first line is located closer to the proximate position than is the second line.

In the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.

In another exemplary configuration of the lidded container according to the present invention, a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.

According to the present invention, there is provided a tube, the tube having a containment part formed by joining a first packaging material and a second packaging material together, the first packaging material being located at a first face of the tube, the second packaging material being located at a second face of the tube. The tube includes:

a first region overlapping the containment part in plan view;

a second region located between the containment part and an outer edge of the tube in plan view, the second region including a seal that joins the first packaging material and the second packaging material together;

a hole located in the second region and penetrating the first packaging material and the second packaging material; and

a communication part extending from the hole to the outer edge of the tube and penetrating the first packaging material and the second packaging material.

The first packaging material includes at least one layer located in both the first region and the second region.

The second packaging material includes at least one layer located in both the first region and the second region.

The outer edge of the tube includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction.

The hole includes a proximate position where a distance between the hole and the outer edge of the tube in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the tube and a center of the hole extends.

The communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction.

An outline of the communication part that extends from the hole to the outer edge includes a first line and a second line.

The first line is located closer to the proximate position than is the second line.

In the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.

In another exemplary configuration of the tube according to the present invention, a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.

The present invention makes it possible to provide a pouch, a lidded container, a tube, and other packages that can be easily inserted onto a hanging implement, and are resistant to falling when hung on the hanging implement.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a front view of a pouch according to an embodiment as seen from a first face of the pouch.

FIG. 1B is a back view of the pouch according to the embodiment as seen from a second face of the pouch.

FIG. 2A is an enlarged front view of the region indicated by reference sign B and enclosed by an alternate long and two short dashes line in FIG. 1A.

FIG. 2B illustrates a claw portion.

FIG. 2C illustrates a middle line.

FIG. 3 is a cross-sectional view of the pouch taken along a line B-B in FIG. 1A.

FIG. 4 illustrates a method for measuring the flexural rigidity of a specimen cut out from the pouch.

FIG. 5 illustrates the method for measuring the flexural rigidity of the specimen cut out from the pouch.

FIG. 6 is a cross-sectional view of an exemplary packaging material constituting the pouch.

FIG. 7 is a cross-sectional view of an exemplary packaging material constituting the pouch.

FIG. 8 illustrates an exemplary method for manufacturing the pouch.

FIG. 9A is a front view of the pouch illustrated in FIG. 1A with a containment part sealed.

FIG. 9B is a back view of the pouch illustrated in FIG. 1B with the containment part sealed.

FIG. 10 illustrates a plurality of pouches hung on a hanging implement.

FIG. 11A illustrates an exemplary operation of hanging the pouch on the hanging implement.

FIG. 11B illustrates an exemplary operation of hanging the pouch on the hanging implement.

FIG. 11C illustrates an exemplary operation of hanging the pouch on the hanging implement.

FIG. 12 is a front view of a modification of a communication part provided in a second region.

FIG. 13 is a front view of a modification of the communication part provided in the second region.

FIG. 14 is a front view of a modification of the communication part provided in the second region.

FIG. 15 is a front view of a modification of the communication part provided in the second region.

FIG. 16 is a front view of a modification of the communication part provided in the second region.

FIG. 17 is a front view of a modification of the communication part provided in the second region.

FIG. 18 is a front view of a modification of a hole provided in the second region.

FIG. 19 is a front view of a modification of the hole provided in the second region.

FIG. 20 is a front view of a modification of the hole provided in the second region.

FIG. 21 is a front view of a modification of the hole provided in the second region.

FIG. 22 is a front view of a modification of the hole provided in the second region.

FIG. 23 is a front view of a modification of the hole provided in the second region.

FIG. 24 is a front view of a modification of the hole provided in the second region.

FIG. 25 is a front view of a modification of the hole provided in the second region.

FIG. 26A is a front view of a modification of the hole provided in the second region.

FIG. 26B is a front view of a modification of the hole provided in the second region.

FIG. 26C is a front view of a modification of the hole provided in the second region.

FIG. 27 illustrates pouches hung on the hanging implement and each including the hole illustrated in FIG. 26A.

FIG. 28 is a front view of a modification of each of the hole and the communication part that are provided in the second region.

FIG. 29 is a front view of a modification of each of the hole and the communication part that are provided in the second region.

FIG. 30 is a cross-sectional view of a modification of a reinforcement.

FIG. 31 illustrates an exemplary method for manufacturing a pouch including the reinforcement illustrated in FIG. 30.

FIG. 32 is a front view of a modification of a reinforcing part.

FIG. 33 is a front view of a modification of the pouch.

FIG. 34 is a front view of a modification of the pouch.

FIG. 35 is a front view of the pouch illustrated in FIG. 34 with the containment part sealed.

FIG. 36 is a front view of a modification of the pouch.

FIG. 37 is a front view of a modification of the pouch.

FIG. 38 is a cross-sectional view of the pouch taken along a line C-C in FIG. 37 .

FIG. 39 is a front view of a modification of the pouch.

FIG. 40 is a cross-sectional view of the pouch taken along a line D-D in FIG. 39 .

FIG. 41 is a front view of a modification of the pouch.

FIG. 42 is a front view of a modification of the pouch.

FIG. 43 is a perspective view of a modification of the hanging implement.

FIG. 44 is a cross-sectional view of a modification of a support of the hanging implement.

FIG. 45 is a cross-sectional view of the support of the hanging implement.

FIG. 46 is a perspective view of a modification of the hanging implement.

FIG. 47 is a perspective view of a modification of the hanging implement.

FIG. 48 is a plan view of an exemplary lidded container that includes the hole and the communication part.

FIG. 49 is a cross-sectional view of the lidded container taken along a line E-E in FIG. 48 .

FIG. 50 is an enlarged cross-sectional view of a first-edge seal and the containment part of the lidded container illustrated in FIG. 49 .

FIG. 51 is a cross-sectional view of a modification of a second packaging material of the lidded container.

FIG. 52 is a front view of an exemplary tube that includes the hole and the communication part.

FIG. 53 is a cross-sectional view of the tube taken along a line F-F in FIG. 52 .

FIG. 54 illustrates a method for measuring the maximum value of load that a package is able to withstand.

FIG. 55 illustrates the measurements of the maximum value of load.

FIG. 56 illustrates the results of evaluation made by panelists.

FIG. 57 is a front view of a pouch according to each of reference example B1 and reference example B2.

DETAILED DESCRIPTION

An embodiment of the present invention is described below with reference to FIGS. 1A to 11C. In the accompanying drawings, for ease of illustration and understanding, the scales, the length-to-width dimensional ratios, and other dimensional features in the drawings are changed and exaggerated as appropriate from the actual values.

As for terms and values that are used herein to define shapes, geometric conditions, and their extents or degrees, for example, terms such as “parallel”, “orthogonal”, and “identical” and values such as lengths and angles, these terms and values are not limited to their strict meanings but are to be construed as including a range of variations that allow for similar expected functions.

FIG. 1A is a front view of a pouch 10 as seen from a first face 1 of the pouch 10. FIG. 1B is a back view of the pouch 10 as seen from a second face 2 of the pouch 10 located opposite to the first face 1. FIGS. 1A and 1B each depict the pouch 10 prior to being filled with the contents, that is, with no contents contained therein. As used with reference to the embodiment, the term pouch conceptually includes not only a pouch with no contents contained therein but also a pouch with contents contained therein.

The pouch 10 has a containment part 8 for containing contents. The containment part 8 is a space located between a first packaging material, which constitutes the first face 1, and a second packaging material, which constitutes the second face 2. The containment part 8 is defined by the first packaging material, the second packaging material, and a seal where the first packaging material and the second packaging material are joined together. In each of front views and back views of the pouch 10 such as FIGS. 1A and 1B, as well as plan views of a lidded container and front views of a tube that will be described later, the seal is shaded with diagonal lines. As illustrated in FIG. 1A, when viewed along the normal to the first packaging material constituting the first face 1, the containment part 8 is located inside the seal. In the following description, viewing a pouch, a lidded container, a tube, or other packages along the normal to the first packaging material is also referred to simply as plan view.

The terms “first packaging material” and “second packaging material” mentioned above are used to merely divide individual packaging materials from each other according to their positional relationship, and are not intended to limit the manner in which the packaging materials are provided in manufacturing the pouch 10. For example, the pouch 10 may be manufactured by using a single sheet of packaging material including the first packaging material and the second packaging material that are provided contiguously, or may be manufactured by using a total of two sheets of packaging material including a single sheet of first packaging material and a single sheet of second packaging material.

A region of a package that overlaps the containment part 8 in plan view is hereinafter referred to as first region 19. A region of the package located between the containment part 8 and the outer edge of the package and including the seal that joins the first packaging material and the second packaging material together is hereinafter referred to as second region 20.

The contents to be contained in the containment part 8 of a package such as a pouch, a lidded container, or a tube are not particularly limited. The containment part 8 of the package is capable of containing objects in various forms as its contents, such as liquids, powders, granulates, and solids. The contents may be food products, or may be non-food products.

<Shape of Pouch>

The shape of the pouch 10 is described below. In the example illustrated in FIGS. 1A and 1B, the pouch 10 has an outer edge in the shape of a quadrangle. As used herein, the term quadrangle conceptually includes not only shapes with angular corners but also shapes whose corners are chamfered into an outwardly convex arcuate or curved shape.

The outer edge of the pouch includes a first edge 11, a second edge 12 located opposite to the first edge 11 in a first direction D1, and a third edge 13 and a fourth edge 14, which extend between the first edge 11 and the second edge 12. The third edge 13 and the fourth edge 14 may be located opposite to each other in a second direction D2 orthogonal to the first direction D1. The first edge 11 may be located at the upper side of the pouch 10 when the pouch 10 is hung. In this case, the first direction D1 is the vertical direction, and the second direction D2 is the horizontal direction.

Reference sign L1 denotes the distance between the first edge 11 and the second edge 12 in the second direction D2. Reference sign L2 denotes the distance between the third edge 13 and the fourth edge 14 in the first direction D1. The distance L1 may be less than the distance L2. For example, the outside shape of the pouch 10 may be a rectangle having short sides defined by the first edge 11 and the second edge 12, and long sides defined by the third edge 13 and the fourth edge 14. The ratio of the distance L1 to the distance L2 is, for example, less than 1. The above-mentioned ratio may be less than or equal to 9/10, may be less than or equal to 8/10, or may be less than or equal to 7/10. The radio of the distance L1 to the distance L2 is, for example, greater than or equal to 1/10. The above-mentioned ratio may be greater than or equal to 2/10, or may be greater than or equal to 3/10. Although not illustrated, the distance L1 may be greater than or equal to the distance L2. Although not illustrated, the outside shape of the pouch 10 may have curved corner portions. A corner portion refers to a location where two edges are connected with each other.

As illustrated in FIG. 1A, the first edge 11 is divided into a first portion 11A, a second portion 11B, and a third portion 11C, which are arranged side by side in the direction from the third edge 13 to the fourth edge 14. In the second direction D2, the length of the first portion 11A, the length of the second portion 11B, and the length of the third portion 11C are equal to each other. The second portion 11B is located in the middle of the first edge 11 in the second direction D2.

<Seal>

The seal is described below. The seal on the second region 20 of the pouch 10 illustrated in FIGS. 1A and 1B includes a first-edge seal 21 extending along the first edge 11, a third-edge seal 23 extending along the third edge 13, and a fourth-edge seal 24 extending along the fourth edge 14. In plan view, the first-edge seal 21, the third-edge seal 23, and the fourth-edge seal 24 may or may not be in contact with the outer edge of the pouch 10. In FIGS. 1A and 1B, a lower portion of the pouch 10 located below an alternate long and short dash line is a to-be-second-edge-seal part 22 b, which will become a second-edge seal 22 later.

<Easy-Opening Means>

The seal on the pouch 10 may be provided with easy-opening means 15 for tearing the packaging material constituting the pouch to allow opening of the pouch. For example, as illustrated in FIGS. 1A and 1B, the easy-opening means 15 may include a notch 15 a, which extends from the third edge 13 in the second direction D2 and penetrates the third-edge seal 23. The easy-opening means 15 may include a half-cut line formed in the third-edge seal 23 by use of laser machining, a cutter, or other means. The easy-opening means 15 may be formed at or near the fourth edge 14.

The easy-opening means 15 may be located closer to the first edge 11 than to the second edge 12. For example, as illustrated in FIG. 1A, a distance L21 between the easy-opening means 15 and the first edge 11 in the first direction D1 may be less than a distance L22 between the easy-opening means 15 and the second edge 12 in the first direction D1.

<Hole and Communication Part>

The pouch 10 includes a hole 4, which is located in the second region 20 and penetrates the first packaging material and the second packaging material. In the example illustrated in FIGS. 1A and 1B, the hole 4 is located in the second region 20 between the first edge 11 of the pouch 10 and the containment part 8. The hole 4 is a hole into which the support of a hanging implement described later is to be inserted. In the example illustrated in FIGS. 1A and 1B, the hole 4 has a circular outline.

When hung on the hanging implement via the hole 4, the pouch 10 assumes a position in which the center of gravity of the pouch 10 is located below the hole 4. In FIG. 1A, a center-of-gravity line that connects the center of the hole 4 and the center of gravity of the pouch 10 is denoted by reference sign Lg. Hereinafter, the direction in which the center-of-gravity line Lg extends will be referred to also as center-of-gravity direction. The embodiment is directed to a case in which the first direction D1 is parallel to the center-of-gravity direction. For example, the first direction D1 can be made parallel to the center-of-gravity direction if the hole 4 is located in the middle of the pouch 10 in the second direction D2 as illustrated in FIG. 1A.

The pouch 10 includes a communication part 5, which extends from the hole 4 to the outer edge of the pouch 10 and penetrates the first packaging material and the second packaging material. In the example illustrated in FIGS. 1A and 1B, the communication part 5 extends from the hole 4 to the first edge 11. The communication part 5 allows the support of the hanging implement described later to pass therethrough from the first edge 11 toward the hole 4. In other words, the communication part 5 is capable of connecting the first edge 11 and the hole 4.

As illustrated in FIG. 1A, the communication part 5 may be connected with the second portion 11B of the first edge 11. The hole 4 may overlap the second portion 11B when viewed in the first direction D1. That is, the hole 4 may be disposed in proximity to the middle of the first edge 11. The hole 4 may not overlap the first portion 11A and the third portion 11C when viewed in the first direction D1.

As illustrated in FIG. 1A, the number of holes 4 located in the second region 20 between the first edge 11 and the containment part 8 may be one. Although not illustrated, two or more holes 4 may be located in the second region 20 between the first edge 11 and the containment part 8.

FIG. 2A is an enlarged front view of the region indicated by reference sign B and enclosed by an alternate long and two short dashes line in FIG. 1A. As illustrated in FIG. 2A, the communication part 5 is connected with the hole 4 at a position that is spaced apart from a proximate position 4 c of the hole 4 in a direction orthogonal to the center-of-gravity direction, that is, in the second direction D2. In the example illustrated in FIG. 2A, the communication part 5 is located on the right side, that is, near the fourth edge 14 relative to the proximate position 4 c. The proximate position 4 c is a position on the outline of the hole 4 where the distance to the outer edge of the pouch 10 in the center-of-gravity direction is shortest. According to the embodiment, the proximate position 4 c is a position on the outline of the hole 4 where the distance to the first edge 11 in the first direction D1 is shortest.

The outline of the hole 4 may include a curved portion, and the curved portion may include the proximate position 4 c. In this case, with a hanging implement such as a support 71 described later being inserted in the hole 4, the pouch 10 moves due to the self-weight of the pouch 10 to a position in which the hanging implement comes into contact with the proximate position 4 c. Since the proximate position 4 c is located above any other portion of the outline of the hole 4, the pouch 10 becomes stable at that position where the hanging implement comes into contact with the proximate position 4 c. If the hole 4 has a circular outline, the proximate position 4 c is located in the middle of the hole 4 in the second direction D2.

As described above, the communication part 5 is connected with the hole 4 at a position spaced apart from the proximate position 4 c. This helps to prevent or inhibit the hanging implement inserted in the hole 4 from passing through the communication part 5 due to the self-weight of the pouch 10. In the example illustrated in FIG. 2A, the communication part 5 is connected with the hole 4 at a position where the distance between the communication part 5 and the proximate position 4 c in the second direction D2 is greatest.

As illustrated in FIG. 2A, the outline of the communication part 5 that extends from the hole 4 to the outer edge of the pouch 10 includes a first line 5 x and a second line 5 y. The first line 5 x is located closer to the proximate position 4 c than is the second line 5 y.

As illustrated in FIG. 2A, the first line 5 x and the second line 5 y may be partially in contact with each other. That is, the communication part 5 may have a portion where the first line 5 x and the second line 5 y are in contact with each other, and a portion where the first line 5 x and the second line 5 y are not in contact with each other. The portion where the first line 5 x and the second line 5 y are in contact with each other is obtained by, for example, inserting a blade into a portion of the second region 20. Such a portion is also referred to as slit 5 d. The portion where the first line 5 x and the second line 5 y are not in contact with each other is obtained by punching out a portion of the second region 20 by use of, for example, a punching die. Such a portion is also referred to as notch 5 e.

The notch 5 e may be located closer to the first edge 11 than is the slit 5 d. For example, the notch 5 e may be located at the first edge 11, and the slit 5 d may extend from the hole 4 to the notch 5 e. The slit 5 d may be connected with the hole 4.

The first line 5 x includes a first connection point 5 x 1. The first connection point 5 x 1 is a position where the first line 5 x is connected with the hole 4. The first connection point 5 x 1 may be defined as a position on the first line 5 x where the distance from the first edge 11 in the first direction D1 is greatest. The first line 5 x may extend linearly from the first connection point 5 x 1 toward the first edge 11.

In the first direction D1, the distance from the first connection point 5 x 1 to the first edge 11 is greater than the distance from the proximate position 4 c to the first edge 11. In other words, the first connection point 5 x 1 is located closer to the second edge 12 than is the proximate position 4 c of the hole 4. In this case, an outline of the hole 4 that is located between the proximate position 4 c and the first connection point 5 x 1 includes a portion that is displaced further toward the second edge 12 with increasing proximity to the first connection point 5 x 1.

One conceivable cause of falling of the pouch 10 hung on the hanging implement is that a portion of the second region 20 in contact with the hanging becomes twisted, which causes the hanging implement to pass through the communication part 5. According to the embodiment, the greater the area of a claw portion 20 x shaded with diagonal lines in FIG. 2B, the greater the resistance to twisting, and thus the less likely the pouch 10 is to fall. The claw portion 20 x is a portion of the second region 20 that is located between the first edge 11 and the hole 4 in the first direction D1, and that is located between the proximate position 4 c and the first line 5 x in the second direction D2.

In FIG. 2A and FIG. 2B, reference sign A1 denotes a dimension of the hole 4 in the first direction D1. Reference sign A2 denotes the distance in the first direction D1 between the proximate position 4 c and the first connection point 5 x 1. Reference sign A3 denotes the distance in the first direction D1 between the proximate position 4 c and the first edge 11. Reference sign B1 denotes a dimension of the hole 4 in the second direction D2. Reference sign B2 denotes the distance in the second direction D2 between the proximate position 4 c and the first connection point 5 x 1. The greater the distance A2, the distance A3, and the distance B2, the greater the area of the claw portion 20 x, and thus the more resistant the claw portion 20 x is to twisting.

The distance A2 is set to allow the claw portion 20 x to securely hook onto the support of the hanging implement. If the support of the hanging implement is a rigid rod-shaped component, the distance A2 is, for example, greater than or equal to 2 mm. The distance A2 may be greater than or equal to 3 mm, or may be greater than or equal to 4 mm. If the support of the hanging implement is a component with low rigidity such as a thread, a rope, or a string, the distance A2 may be less than 2 mm.

The distance A3 is, for example, greater than or equal to 2 mm. The distance A3 may be greater than or equal to 3 mm, or may be greater than or equal to 4 mm.

As with the distance A2, the distance B2 is set to allow the claw portion 20 x to securely hook onto the support of the hanging implement. If the support of the hanging implement is a rigid rod-shaped component, the distance B2 is, for example, greater than or equal to 2 mm. The distance B2 may be greater than or equal to 3 mm, or may be greater than or equal to 4 mm. If the support of the hanging implement is a component with low rigidity such as a thread, a rope, or a string, the distance B2 may be less than 2 mm.

As illustrated in FIG. 2A, the first line 5 x and the second line 5 y may include a curved portion 5 c. The curved portion 5 c may define the first line 5 x and the second line 5 y at the location where the first line 5 x and the second line 5 y are connected with the first edge 11. The curved portion 5 c is curved to be convex toward the first edge 11. The presence of the curved portion 5 c described above facilitates entry of the hanging implement into the communication part 5.

The second line 5 y is located opposite to the proximate position 4 c with respect to the first line 5 x. In this case, it is conceivable that in hanging the pouch 10 from the hanging implement, the hanging implement moves into the communication part 5 along the curved portion 5 c of the second line 5 y. With this in mind, a curvature radius R2 of the curved portion 5 c at a location where the second line 5 y is connected with the first edge 11 may be greater than a curvature radius R1 of the curved portion 5 c at a location where the first line 5 x is connected with the first edge 11.

The curvature radius R1 of the curved portion 5 c of the first line 5 x is, for example, greater than or equal to 2.0 mm. The curvature radius R1 may be greater than or equal to 3.0 mm, or may be greater than or equal to 4.0 mm. Further, the curvature radius R1 of the curved portion 5 c of the first line 5 x may be less than or equal to 8.0 mm, may be less than or equal to 6.0 mm, or may be less than or equal to 5.0 mm.

The curvature radius R2 of the curved portion 5 c of the second line 5 y is, for example, greater than or equal to 3.0 mm. The curvature radius R2 may be greater than or equal to 4.0 mm, or may be greater than or equal to 5.0 mm. Further, the curvature radius R1 of the curved portion 5 c of the second line 5 y may be less than or equal to 10.0 mm, may be less than or equal to 8.0 mm, or may be less than or equal to 6.0 mm.

As with FIGS. 2A and 2B, FIG. 2C is an enlarged view of the hole 4 and the communication part 5. In FIG. 2C, an alternate long and short dash line denoted by reference sign 5 z represents a middle line running in the middle between the first line 5 x and the second line 5 y. The distance in the second direction D2 between the first line 5 x and the middle line 5 z is equal to the distance in the second direction D2 between the second line 5 y and the middle line 5 z. In case of the slit 5 d, the middle line 5 z overlaps the first line 5 x and the second line 5 y.

The middle line 5 z may include a straight portion 5 z 1 that extends linearly. Since the middle line 5 z includes the straight portion 5 z 1, a hanging implement such as the support 71 described later readily passes through the communication part 5. As illustrated in FIG. 2C, the straight portion 5 z 1 may be in contact with the hole 4. The straight portion 5 z 1 may extend in parallel to the first direction D1.

Reference sign C1 denotes a dimension of the middle line 5 z in the first direction D1. Reference sign C2 denotes a dimension of the straight portion 5 z 1 in the first direction D1. The radio of the dimension C2 to the dimension C1 is, for example, greater than or equal to 2/10. The above-mentioned ratio may be greater than or equal to 5/10, or may be greater than or equal to 7/10.

To prevent or inhibit deformation such as twisting of the claw portion 20 x or other portions of the second region 20, the components of the second region 20 may be increased in strength. For example, the second region 20 of the pouch 10 may include a reinforcing part 21 a

<Reinforcing Part>

In the example illustrated in FIGS. 1A and 1B, two dashed lines extending in the second direction D2 in an upper portion of the pouch 10 represent the upper and lower ends of the reinforcing part 21 a. The reinforcing part 21 a is located in the first-edge seal 21 where the hole 4 is provided. The presence of the reinforcing part 21 a makes it possible to increase the strength of the pouch 10 around the periphery of each of the hole 4 and the communication part 5. This helps to prevent or inhibit the pouch 10 from undergoing, for example, deformation or cracking.

As illustrated in FIGS. 1A and 1B, the reinforcing part 21 a may be located between an outer-edge-side seal 21 b and a containment-part-side seal 21 c. The outer-edge-side seal 21 b is a seal extending along the first edge 11 of the pouch 10. The outer-edge-side seal 21 b may or may not be in contact with the first edge 11 in plan view. The containment-part-side seal 21 c is a seal that is in contact the containment part 8 in plan view. The reinforcing part 21 a, the outer-edge-side seal 21 b, and the containment-part-side seal 21 c constitute the first-edge seal 21.

The reinforcing part 21 a surrounds the hole 4 in plan view. As illustrated in FIGS. 1A and 1B, the reinforcing part 21 a may extend in the second direction D2 so as to reach the third edge 13 and the fourth edge 14.

FIG. 3 is a cross-sectional view of the second region 20 of the pouch taken along a line A-A in FIG. 1A. As illustrated in FIG. 3 , the reinforcing part 21 a is thicker than the outer-edge-side seal 21 b and the containment-part-side seal 21 c. The difference between the thickness T3 of the reinforcing part 21 a and each of the thickness T4 of the outer-edge-side seal 21 b and the thickness T5 of the containment-part-side seal 21 c is, for example, greater than or equal to 50 μm. The above-mentioned difference may be greater than or equal to 70 μm, or may be greater than or equal to 100 μm.

As illustrated in FIG. 3 , the reinforcing part 21 a may include a reinforcement 55 located between the inner face of a first packaging material 30A constituting the first face 1, and the inner face of a second packaging material 30B constituting the second face 2. In the outer-edge-side seal 21 b and the containment-part-side seal 21 c, the inner face of the first packaging material 30A and the inner face of the second packaging material 30B may be joined together. In this case, the thickness T3 of the reinforcing part 21 a can be made greater than the thickness T4 of the outer-edge-side seal 21 b and the thickness T5 of the containment-part-side seal 21 c by an amount equal to the thickness of the reinforcement 55. The term “inner face” refers to a face of a packaging material such as the first packaging material 30A or the second packaging material 30B that is located adjacent to the containment part 8.

As illustrated in FIG. 3 , the first packaging material 30A may include a first base layer 51, and a first sealant layer 61 located adjacent to the inner face of the first base layer 51. The second packaging material 30B may include a second base layer 52, and a second sealant layer 62 located adjacent to the inner face of the second base layer 52. In the outer-edge-side seal 21 b and the containment-part-side seal 21 c, the first sealant layer 61 of the first packaging material 30A, and the second sealant layer 62 of the second packaging material 30B may be joined together. For example, the first sealant layer 61 and the second sealant layer 62 may be integrated together through a heat seal process.

In the reinforcing part 21 a, the first sealant layer 61 of the first packaging material 30A, and the second sealant layer 62 of the second packaging material 30B may be joined to the reinforcement 55. For example, the first sealant layer 61, the reinforcement 55, and the second sealant layer 62 may be integrated together through a heat seal process. Alternatively, the first sealant layer 61 and the reinforcement 55 may not be joined together. The second sealant layer 62 and the reinforcement 55 may not be joined together. Even in such cases, the reinforcing part 21 a is sandwiched between the outer-edge-side seal 21 b and the containment-part-side seal 21 c in plan view, and thus in the reinforcing part 21 a, the spacing between the inner face of the first packaging material 30A and the inner face of the second packaging material 30B can be limited to be within a predetermined range.

Suitable exemplary materials for a type of the reinforcement 55 that is joined to the first sealant layer 61 and the second sealant layer 62 include materials described later as exemplary materials for the first sealant layer 61. Suitable exemplary materials for a type of the reinforcement 55 that is not joined to the first sealant layer 61 and the second sealant layer 62 include: films or sheets made of, for example, polyethylene terephthalate, polybutylene terephthalate, or polypropylene; and paper. The thickness of the reinforcement 55 is, for example, greater than or equal to 50 μm. The thickness of the reinforcement 55 may be greater than or equal to 70 μm, or may be greater than or equal to 100 μm. The thickness of the reinforcement 55 may be less than or equal to 1000 μm, may be less than or equal to 500 μm, or may be less than or equal to 300 μm.

<Strength of Second Region>

Reference is now made to preferred mechanical characteristics possessed by the second region 20 that is provided with the hole 4. Preferably, a portion of the second region 20 where the hole 4 is located has a predetermined flexural rigidity in at least one direction. For example, the above-mentioned portion preferably has a mean flexural rigidity of greater than or equal to 15 g·cm²/cm. The above-mentioned portion preferably has an initial flexural rigidity of preferably greater than or equal to 22 g·cm²/cm.

Flexural rigidity is a parameter representing a measure of the stiffness of a film. Reference is now made to FIGS. 4 and 5 to describe a method for measuring flexural rigidity.

To measure flexural rigidity, first, a specimen 80 is cut out from a portion of the second region 20 that has the same layer structure as the portion of the second region 20 where the hole 4 is located. As illustrated in FIG. 4 , the specimen 80 has the shape of a square with sides each having a length M1. The length M1 is 10 mm. The direction of each side of the specimen 80 is set in accordance with the direction in which to measure flexural rigidity. For example, for a case where flexural rigidity is to be measured in the second direction D2, which is the machine direction of the pouch 10 illustrated in FIG. 1A, the specimen 80 includes sides extending in parallel to the second direction D2.

Subsequently, as illustrated in FIG. 4 , opposite sides of the specimen 80 are held by using a first clamp 86 and a second clamp 87 of a measuring instrument 85. To measure flexural rigidity in the second direction D2, the specimen 80 is held such that sides of the specimen 80 extending in the second direction D2 extend from the first clamp 86 to the second clamp 87. The spacing M3 between the first clamp 86 and the second clamp 87 is 10 mm.

Subsequently, the first clamp 86 is tilted relative to the second clamp 87 so as to bend the specimen 80 into a curved shape. The initial flexural rigidity and mean flexural rigidity of the specimen 80 can be calculated based on the bending moment exerted on the specimen 80 at this time. Initial flexural rigidity refers to the bending moment exerted on the specimen 80 when the specimen 80 is bent into a curved shape from a flat shape. Mean flexural rigidity refers to the mean value of bending moments exerted on the specimen 80 during a single execution of the process of bending the specimen 80 into a curved shape from a flat shape until the specimen 80 has a set curvature. The set curvature is 2.5/cm. The rate of change in curvature is 0.1/cm·s.

Initial flexural rigidity and mean flexural rigidity are measured for each of five specimens 80, and their respective mean values are used as initial flexural rigidity and mean flexural rigidity according to the embodiment.

The mean flexural rigidity of the specimen 80 in the machine direction is preferably greater than or equal to 15 g·cm²/cm. The mean flexural rigidity of the specimen 80 in the machine direction may be greater than or equal to 20 g·cm²/cm, may be greater than or equal to 25 g·cm²/cm, or may be greater than or equal to 30 g·cm²/cm. An excessively high mean flexural rigidity, however, reduces the manufacturability or ease of handling of the pouch 10. With this in mind, the mean flexural rigidity of the specimen 80 in the machine direction may be less than or equal to 50 g·cm²/cm, may be less than or equal to 45 g·cm²/cm, may be less than or equal to 40 g·cm²/cm, or may be less than or equal to 35 g·cm²/cm.

The mean flexural rigidity of the specimen 80 in the transverse direction orthogonal to the machine direction is preferably greater than or equal to 16 g·cm²/cm. The mean flexural rigidity of the specimen 80 in the transverse direction may be greater than or equal to 18 g·cm²/cm, may be greater than or equal to 20 g·cm²/cm, or may be greater than or equal to 22 g·cm²/cm. The mean flexural rigidity of the specimen 80 in the transverse direction may be less than or equal to 40 g·cm²/cm, may be less than or equal to 35 g·cm²/cm, may be less than or equal to 30 g·cm²/cm, or may be less than or equal to 25 g·cm²/cm.

The initial flexural rigidity of the specimen 80 in the machine direction is preferably greater than or equal to 22 g·cm²/cm. The initial flexural rigidity of the specimen 80 in the machine direction may be greater than or equal to 25 g·cm²/cm, may be greater than or equal to 30 g·cm²/cm, or may be greater than or equal to 40 g·cm²/cm. The initial flexural rigidity of the specimen 80 in the machine direction may be less than or equal to 70 g·cm²/cm, may be less than or equal to 60 g·cm²/cm, may be less than or equal to 50 g·cm²/cm, or may be less than or equal to 45 g·cm²/cm.

The initial flexural rigidity of the specimen 80 in the transverse direction is preferably greater than or equal to 23 g·cm²/cm. The initial flexural rigidity of the specimen 80 in the transverse direction may be greater than or equal to 25 g·cm²/cm, may be greater than or equal to 28 g·cm²/cm, or may be greater than or equal to 30 g·cm²/cm. The initial flexural rigidity of the specimen 80 in the transverse direction may be less than or equal to 70 g·cm²/cm, may be less than or equal to 60 g·cm²/cm, may be less than or equal to 50 g·cm²/cm, or may be less than or equal to 40 g·cm²/cm.

As an instrument for measuring flexural rigidity, a pure-bending characteristic tester JTC-911BT manufactured by SMT Co., Ltd. can be used. The flexural rigidity is measured under the environment of a temperature of 25° C. and a relative humidity of 50%.

According to the embodiment, the second region 20 is provided with the reinforcing part 21 a including the reinforcement 55. This makes it possible to increase the flexural rigidity of a portion of the second region 20 where the hole 4 is located. This helps to prevent or inhibit a region around the periphery of each of the hole 4 and the communication part 5 from deforming to cause the pouch 10 to fall off the hanging implement.

(Packaging Material)

Reference is now made in detail to the first packaging material 30A and the second packaging material 30B.

The first packaging material 30A includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 3 , the first base layer 51 and the first sealant layer 61 of the first packaging material 30A are located in both the first region 19 and the second region 20.

As with the first packaging material 30A, the second packaging material 30B also includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 3 , the second base layer 52 and the second sealant layer 62 of the second packaging material 30B are located in both the first region 19 and the second region 20.

The layer structure of each of the first packaging material 30A and the second packaging material 30B is described below in detail. FIG. 6 is a cross-sectional view of an exemplary layer structure of the first packaging material 30A.

As illustrated in FIG. 6 , the first packaging material 30A includes at least the first base layer 51, and the first sealant layer 61 located adjacent to the inner face of the first base layer 51. The first packaging material 30A may include a first bonding layer 65 for bonding the first base layer 51 to another layer such as the first sealant layer 61.

Suitable materials for the first base layer 51 may include: a polyester film such as a polyethylene terephthalate film or a polybutylene terephthalate film; a polyamide film such as a nylon film; a plastic film such as a polypropylene film; and paper. A plastic film that constitutes the first base layer 51 is preferably oriented biaxially.

If the first base layer 51 includes a plastic film, the first base layer 51 has a thickness of, for example, greater than or equal to 10 μm and less than or equal to 50 μm. Paper that constitutes the first base layer 51 has a basis weight of, for example, greater than or equal to 20 g/m² and less than or equal to 100 g/m².

Suitable materials for the first sealant layer 61 may include polyolefin resins such as polyethylene, polypropylene, ethylene-vinyl acetate copolymers, ethylene-propylene block copolymers, and propylene-ethylene block copolymers. The first sealant layer 61 may include an unoriented sealant film.

The thickness of the first sealant layer 61 may be greater than or equal to 15 μm, or may be greater than or equal to 18 μm. The thickness of the first sealant layer 61 may be less than or equal to 80 μm, may be less than or equal to 60 μm, may be less than or equal to 40 μm, or may be less than or equal to 30 μm.

The first bonding layer 65 may be an adhesive layer, or may be a bonding resin layer. The adhesive layer can be formed by a known method, for example, dry lamination. The bonding resin layer includes thermoplastic resin. The bonding resin layer can be formed by a known method, for example, melt extrusion lamination or sandwich lamination.

FIG. 7 is a cross-sectional view of another exemplary layer structure of the first packaging material 30A. As illustrated in FIG. 7 , the first packaging material 30A may further include a first additional layer 53. The first packaging material 30A may include a third bonding layer 67 for bonding the first additional layer 53 to another layer.

The first additional layer 53 is provided to impart some characteristics to the first packaging material 30A. For example, the first additional layer 53 may include the plastic film described above as an example of the first base layer 51. In this case, the presence of the first additional layer 53 helps to increase the strength of the first packaging material 30A. The material of the plastic film that constitutes the first additional layer 53 may be identical to or different from the material of a plastic film that constitutes the first base layer 51.

The first additional layer 53 may include a metallic foil of aluminum or other metals. This allows for enhanced gas barrier property or light-blocking property of the first packaging material 30A. The first additional layer 53 may include a resin layer with gas barrier property, examples of which include ethylene-vinyl alcohol copolymers (EVOH), polyvinylidene chloride resins (PVDC), and aromatic polyamides such as nylon MXD6.

As illustrated in FIG. 7 , the first additional layer 53 may be located between the first base layer 51 and the first sealant layer 61. Alternatively, although not illustrated, the first additional layer 53 may be located adjacent to the outer face of the first base layer 51.

As with the first bonding layer 65, the third bonding layer 67 may be an adhesive layer, or may be a bonding resin layer.

The first packaging material 30A may include a print layer. The print layer is a layer on which to form any desired prints such as letters, numerals, designs, geometric figures, symbols, or patterns for purposes including decoration, indication of the contents, indication of best-before date, manufacturer or producer, seller or distributor, or other such information, and providing other indications or a sense of beauty. The print layer is formed by printing ink including a binder and a pigment.

A plastic film included in the first packaging material 30A may be provided with a vapor-deposited layer of a metal such as aluminum, a vapor-deposited layer of a metal oxide such as an aluminum oxide, or a vapor-deposited layer of an inorganic oxide such as a silicon oxide. Such a vapor-deposited layer may be stacked over the first base layer 51, may be stacked over the first sealant layer 61, or may be stacked over the first additional layer 53.

The layers constituting the first packaging material 30A are stacked by use of a method such as dry lamination or melt extrusion. The first packaging material 30A may further include other layers not illustrated in the drawings.

The second packaging material 30B includes at least the second base layer 52, and the second sealant layer 62 located adjacent to the inner face of the second base layer 52. As with the first packaging material 30A illustrated in FIG. 6 , the second packaging material 30B may include the following layers arranged in the order stated below from the outer side toward the inner side of the second packaging material 30B: the second base layer 52, a second bonding layer 66, and the second sealant layer 62. The second base layer 52, the second bonding layer 66, and the second sealant layer 62 of the second packaging material 30B may be similar in their material, thickness, or other configuration to the first base layer 51, the first bonding layer 65, and the first sealant layer 61 of the first packaging material 30A.

As with the first packaging material 30A illustrated in FIG. 7 , the second packaging material 30B may include the following layers arranged in the order stated below from the outer side toward the inner side of the second packaging material 30B: the second base layer 52, the second bonding layer 66, a second additional layer 54, a fourth bonding layer 68, and the second sealant layer 62. The second base layer 52, the second bonding layer 66, the second additional layer 54, the fourth bonding layer 68, and the second sealant layer 62 of the second packaging material 30B may be similar in their material, thickness, or configuration to the first base layer 51, the first bonding layer 65, the first additional layer 53, the third bonding layer 67, and the first sealant layer 61 of the first packaging material 30A.

The layer structure of the first packaging material 30A may be identical to or different from the layer structure of the second packaging material 30B. The first packaging material 30A and the second packaging material 30B are also collectively referred to as packaging material 30.

The thickness of each of the first packaging material 30A and the second packaging material 30B is, for example, greater than or equal to 30 μm. The thickness of each of the first packaging material 30A and the second packaging material 30B may be greater than or equal to 40 μm, or may be greater than or equal to 45 μm. The thickness of each of the first packaging material 30A and the second packaging material 30B may be less than or equal to 100 μm, may be less than or equal to 80 μm, or may be less than or equal to 60 μm.

Reference is now made to several preferred specific examples of the packaging material 30. The packaging material 30 is not limited to the specific examples described below but may have other configurations.

-   -   OPP (oriented polypropylene film) 20 μm/print layer/AC/PE 10         μm/VMPET 12 μm/AC/PE 10 μm/CPP (cast polypropylene film) 18 μm         OPP 20 μm/adhesive layer/VMCPP 30 μm     -   PET (polyethylene terephthalate) 12 μm/adhesive layer/VMCPP 30         μm     -   OPP 20 μm/adhesive layer/CPP 18 μm     -   ONY (oriented nylon film) 15 μm/PE (polyethylene film) 30 μm     -   print layer/paper 50 μm/PE 10 μm/VMPET 12 μm/AC/PE 10 μm/CPP 18         μm     -   print layer/paper 50 μm/PE 10 μm/aluminum foil 7 μm/PE 30 μm     -   PET 12 μm/PE 15 μm/aluminum foil 7 μm/PE 30 μm

“AC” means anchor coating layer. The anchor coating layer is a layer formed by applying an anchor coating agent onto a predetermined layer or film and then drying the resulting layer or film.

“VMPET” means a PET film with a vapor-deposited layer of a metal such as aluminum stacked thereon.

<Manufacturing Method>

Reference is now made to a method for manufacturing the pouch 10. First, as illustrated in FIG. 8 , the first packaging material 30A and the second packaging material 30B are placed to face each other. The reinforcement 55 is inserted in between the first packaging material 30A and the second packaging material 30B to form a multilayer body. In this state, the multilayer body is heat sealed at a predetermined sealing temperature in regions corresponding to the first edge 11, the third edge 13, and the fourth edge 14 to thereby form the first-edge seal 21, the third-edge seal 23, and the fourth-edge seal 24. A region of the multilayer body that overlaps the reinforcement 55 becomes the reinforcing part 21 a mentioned above. Each of the first packaging material 30A, the second packaging material 30B, and the reinforcement 55 may be in the form of a long roll stock extending in the second direction D2 in FIG. 6 .

Subsequently, the multilayer body is punched with a machining tool including a punching die and a blade to form the hole 4 and the communication part 5. Further, the multilayer body is cut at locations in the first direction D1 that are to become the third edge 13 and the fourth edge 14. In this way, the pouch 10 including the reinforcing part 21 a, the hole 4, and the communication part 5 illustrated in FIGS. 1A and 1B can be obtained.

Subsequently, the containment part 8 of the pouch 10 is filled with the contents through an opening 9 located near the second edge 12. Then, at a location near the second edge 12, the inner face of the first packaging material 30A, and the inner face of the second packaging material 30B are heat sealed at a predetermined sealing temperature to form the second-edge seal 22. In this way, as illustrated in FIGS. 9A and 9B, the pouch 10 with its contents contained and sealed therein can be obtained.

<Usage Method>

Reference is now made to an example of how to use the pouch 10. FIG. 10 illustrates a plurality of pouches 10 hung on a hanging implement 70. The hanging implement 70 includes at least the support 71 on which to hang each pouch 10. The support 71 is, for example, a rod, which is to be inserted into the hole 4 of the pouch 10.

The hanging implement 70 may include a restraint part 72 connected with one end of the support 71. The restraint part 72 is inclined relative to the support 71 such that the restraint part 72 is displaced upward relative to the support 71 with increasing distance from the one end of the support 71. In other words, the restraint part 72 is inclined so as to extend downward in the longitudinal direction toward the support 71. The presence of the restraint part 72 helps to prevent or inhibit the pouch 10 from falling off the one end of the support 71. Reference sign 74 denotes the boundary part between the support 71 and the restraint part 72. The support 71 and the restraint part 72 may be formed by a single component that is bent in the boundary part 74 such that the orientation of its longitudinal direction changes in the boundary part 74.

The hanging implement 70 may include a fixed part 73 connected with the other end of the support 71. The fixed part 73 is a component in the form of a flat plate with a predetermined thickness. The fixed part 73 may be formed such that when the fixed part 73 is placed with its surface oriented in parallel to the vertical direction, the support 71 and the restraint part 72 are both directed vertically downward toward the boundary part 74. As with conventional hanging implements, the fixed part 73 has predetermined mounting means provided on its back. The mounting means allows the fixed part 73 to be mounted to a fixture or to a display rack or shelf with the surface of the fixed part 73 oriented in parallel to the vertical direction.

FIGS. 11A to 11C each illustrate an exemplary operation of hanging the pouch 10 on the hanging implement 70. This operation is performed by, for example, an employee of a store that sells the pouch 10.

The employee first brings the communication part 5 of the pouch 10 into contact with the support 71 of the hanging implement 70. According to the embodiment, the curved portion 5 c exists at the location where the first line 5 x and the second line 5 y are connected with the first edge 11. As a result, the first line 5 x and the second line 5 y have a large spacing from each other at the location where the communication part 5 is connected with the first edge 11. This facilitates positioning of the communication part 5 of the pouch 10 with respect to the support 71. Further, the presence of the curved portion 5 c facilitates entry of the support 71 into the communication part 5 along the curved portion 5 c.

Subsequently, the employee moves the pouch 10 upward toward the support 71 as indicated by an arrow U in FIG. 11B. This allows the support 71 to pass through the communication part 5 and reach the hole 4. The employee then releases his or her hand from the pouch 10. Due to the self-weight of the pouch 10, the pouch 10 moves to a position as illustrated in FIG. 11C where the support 71 comes into contact with the proximate position 4 c. This allows the support 71 to be positioned away from the first connection point 5 x 1 of the communication part 5 in the first direction D1 and the second direction D2. This helps to prevent or inhibit the pouch 10 from falling off the support 71 when a consumer or other user lightly touches the pouch 10.

According to the embodiment, the support 71 can be inserted into the hole 4 via the communication part 5. Consequently, as indicated by an arrow in FIG. 10 , with a plurality of pouches 10 hung on the support 71, a new pouch 10 can be attached to the support 71 at any given location. This facilitates adjustment of the order of the pouches 10 hung on the support 71, in comparison to conventional pouches 10 of a type that are attached to the support 71 from the restraint part 72. For example, a new pouch 10 can be placed near the fixed part 73 relative to the pouches 10 already hung on the support 71. This allows, for example, the pouches 10 to be easily rearranged such that the pouches 10 with shorter use-by dates are placed nearer the restraint part 72.

Reference is now made to how a consumer removes the pouch 10 from the support 71. The consumer first grasps the pouch 10 hung on the support 71, and moves the pouch 10 to a position where the support 71 comes into contact with the first connection point 5 x 1. Subsequently, the consumer pulls the pouch 10 downward. This causes the support 71 to pass through the communication part 5 of the pouch 10 to allow removal of the pouch 10 from the support 71.

The consumer may pull the pouch 10 downward with the support 71 being in contact with the proximate position 4 c. Even in this case, the consumer is able to remove the pouch 10 from the support 71 by applying, to the pouch 10, a force large enough to cause the claw portion 20 x to undergo twisting.

The consumer may remove the pouch 10 from the support 71 by twisting the claw portion 20 x with the hand.

According to the embodiment, a consumer is able to easily remove a single desired pouch 10 from the support 71, in comparison to conventional pouches 10 that are removed from the support 71 from the restraint part 72. This proves particularly advantageous for the consumer if there are individual differences among the pouches 10. For instance, a case is now considered where the packaging material 30 of each pouch 10 is transparent to allow a consumer to see the contents of the pouch 10. In this case, the consumer first checks the condition of the contents of a plurality of pouches 10 hung on the support 71. The consumer then removes, from the support 71, a pouch 10 whose contents are in a preferred condition. In this way, the consumer is able to choose a desired pouch 10 and remove the pouch 10 from the support 71.

According to the embodiment, as with conventional pouches 10, it is also possible to attach the pouch 10 to the support 71 from the restraint part 72, or to pass the pouch 10 attached on the support 71 through the restraint part 72 to thereby remove the pouch 10.

Various changes can be made to the embodiment described above. Modifications of the embodiment are described below with reference to the drawings as required. In the following description and the drawings used in the following description, features that may be similar in configuration to those of the embodiment described above are designated by the same reference signs as those used for the corresponding features in the embodiment described above, and overlapping descriptions are omitted. In the following description, when it is obvious that modifications provide the same operational effects as those provided by the embodiment described above, descriptions of such operational effects are omitted in some cases.

(Modification of Communication Part)

The curved portion 5 c of each of the first line 5 x and the second line 5 y may have any desired curvature radius. For example, as illustrated in FIG. 12 , the curvature radius R2 of the curved portion 5 c of the second line 5 y may be greater than that in the example illustrated in FIG. 2A. As illustrated in FIG. 13 , the curvature radius R1 of the curved portion 5 c of the first line 5 x, and the curvature radius R2 of the curved portion 5 c of the second line 5 y may be equal to each other.

(Modification of Communication Part)

Alternatively, the first line 5 x or the second line 5 y may not include the curved portion 5 c. In other words, the first line 5 x or the second line 5 y may extend linearly from the hole 4 to the first edge 11. FIG. 14 illustrates an example in which the first line 5 x is defined by a straight portion that extends linearly from the hole 4 to the first edge 11. FIG. 15 illustrates an example in which the first line 5 x and the second line 5 y are each defined by a straight portion that extends linearly from the hole 4 to the first edge 11. The communication part 5 illustrated in FIG. 15 is defined by the slit 5 d.

(Modification of Communication Part)

The embodiment described above is directed to an example in which the first line 5 x and the second line 5 y of the communication part 5 are partially in contact with each other. That is, the embodiment described above is directed to an example in which the communication part 5 includes the slit 5 d and a notch. However, this is not intended to be limiting. Alternatively, as illustrated in FIG. 16 , the first line 5 x and the second line 5 y may be in non-contact with each other in their entirety. That is, the communication part 5 may be defined by the notch 5 e. In this case, a spacing W2 between the first line 5 x and the second line 5 y at the first connection point 5 x 1 is preferably less than or equal to 2.0 mm. The spacing W2 may be less than or equal to 1.5 mm, may be less than or equal to 1.0 mm, or may be less than or equal to 0.5 mm.

(Modification of Communication Part)

If the communication part 5 includes the notch 5 e, the first line 5 x and the second line 5 y may each include a straight portion extending linearly such that the spacing between the first line 5 x and the second line 5 y increases with increasing distance from the hole 4 toward the first edge 11. In other words, the direction in which the straight portion of the first line 5 x extends, and the direction in which the straight portion of the second line 5 y extends may be different from each other.

(Modification of Hole)

The embodiment described above is directed to an example in which the outline of the hole 4 has the shape of a circle, more specifically, the shape of a perfect circle. However, the outline of the hole 4 may not necessarily have the shape of a perfect circle. For example, as illustrated in FIGS. 18 and 19 , the outline of the hole 4 may have the shape of an ellipse. In this case, as illustrated in FIG. 18 , a first dimension S1 of the hole 4 may be smaller than a second dimension S2 of the hole 4. Alternatively, as illustrated in FIG. 19 , the first dimension S1 of the hole 4 may be larger than the second dimension S2 of the hole 4. The first dimension S1 refers to a dimension of the hole 4 at the proximate position 4 c in the direction in which the center-of-gravity line Lg extends. The second dimension S2 refers to a dimension of the hole 4 in a direction orthogonal to the direction of measurement of the first dimension S1.

(Modification of Hole)

The foregoing description of the embodiment or its modifications is directed to an example in which the outline of the hole 4 has the shape of a circle such as a perfect circle or an ellipse. However, this is not intended to be limiting. Alternatively, the outline of the hole 4 may have the shape of a polygon. For example, as illustrated in FIG. 20 , the outline of the hole 4 may have the shape of a quadrangle. In this case, as illustrated in FIG. 20 , the communication part 5 may be connected with a corner of the quadrangle defining the outline of the hole 4. A corner refers to a location where two sides defining a polygon such as a quadrangle meet. Alternatively, although not illustrated, the communication part 5 may be connected with a side of the quadrangle defining the outline of the hole 4. The outline of the hole 4 may have the shape of a triangle as illustrated in FIG. 21 . In this case, as illustrated in FIG. 21 , the communication part 5 may be connected with a corner of the triangle defining the outline of the hole 4. Alternatively, although not illustrated, the communication part 5 may be connected with a side of the triangle defining the outline of the hole 4. If the outline of the hole 4 has the shape of a polygon, the corners of the polygon may include a curved portion as illustrated in FIG. 22 .

For a case where the outline of the hole 4 has the shape of a polygon as well, as in the case of FIGS. 18 and 19 described above, the first dimension of the hole 4 may be smaller than the second dimension of the hole 4, or the first dimension of the hole 4 may be larger than the second dimension of the hole 4. Alternatively, the first dimension of the hole 4 may be equal to the second dimension of the hole 4.

(Modification of Positional Relationship between Hole and Communication Part)

The foregoing description of the embodiment is directed to an example in which the communication part 5 is connected with the hole 4 at a position where the distance between the communication part 5 and the proximate position 4 c in the second direction D2 is greatest. However, this is not intended to be limiting. Alternatively, as illustrated in FIG. 23 , the communication part 5 may be connected with the hole 4 at a position that is located between the proximate position 4 c and the position where the distance between the communication part 5 and the proximate position 4 c in the second direction D2 is greatest. In this case, the ratio of the distance A2 to the dimension A1 may be less than 0.5. The ratio of the distance B2 to the dimension B1 may be less than 0.5.

The ratio of the distance A2 to the dimension A1 may be less than or equal to 0.45, or may be less than or equal to 0.4. The ratio of the distance A2 to the dimension A1 may be greater than or equal to 0.2, or may be greater than or equal to 0.3.

The ratio of the distance B2 to the dimension B1 may be less than or equal to 0.45, or may be less than or equal to 0.4. The ratio of the distance B2 to the dimension B1 may be greater than or equal to 0.2, or may be greater than or equal to 0.3.

(Modification of Positional Relationship between Hole and Communication Part)

The embodiment described above is directed to an example in which the first line 5 x and the second line 5 y of the communication part 5 include a straight portion that extends in the first direction D1. However, this is not intended to be limiting. Alternatively, the first line 5 x and the second line 5 y may include a straight portion that extends in a direction inclined relative to the first direction D1. For example, as illustrated in FIG. 24 , the first line 5 x and the second line 5 y may include a straight portion that extends further away from the proximate position 4 c with increasing distance from the hole 4 toward the first edge 11. Alternatively, as illustrated in FIG. 25 , the first line 5 x and the second line 5 y may include a straight portion that extends further toward the proximate position 4 c with increasing distance from the hole 4 toward the first edge 11.

The example in FIG. 24 makes it possible to increase the area of the claw portion 20 x and consequently reduce potential twisting of the claw portion 20 x. This helps to prevent or inhibit the pouch 10 from falling off the support 71. The example in FIG. 25 makes it possible to decrease the area of the claw portion 20 x and consequently facilitate twisting of the claw portion 20 x. This allows a consumer or employer to easily remove the pouch 10 from the support 71.

(Modification of Hole)

The foregoing description of the embodiment is directed to an example in which at the location of the hole 4, the first packaging material 30A and the second packaging material 30B are punched out and removed. However, this is not intended to be limiting.

Alternatively, as illustrated in FIG. 26A, the first packaging material 30A and the second packaging material 30B that are located in the area overlapping the hole 4 may be left to remain while being coupled to the second region 20 around the periphery of the hole 4. For example, the outline of the hole 4 may include a first outline 4 x having one end connected with the first line 5 x, and a second outline 4 y having one end connected with a second line 5 y, and the other end of the first outline 4 x and the other end of the second outline 4 y may not be connected with each other. In this case, as illustrated in FIG. 26A, a portion 4 a of the packaging material overlapping the hole 4 is coupled to the second region 20 around the periphery of the hole 4 via a coupling part 4 z, which is located between the other end of the first outline 4 x and the other end of the second outline 4 y. In the example illustrated in FIG. 26A, the coupling part 4 z is located at a lower end of the hole 4 in the first direction D1. The coupling part 4 z may be located at a position different from a lower end of the hole 4 in the first direction D1. For example, the coupling part 4 z may be located below the center of the hole 4 in the first direction D1.

As illustrated in FIG. 26B, the coupling part 4 z may be located at an end of the hole 4 in the second direction D2. In this case, in the second direction D2, the coupling part 4 z is preferably located opposite to the first connection point 5 x 1 with respect to the center of the hole 4.

As illustrated in FIGS. 26A and 26B, the coupling part 4 z may not include the proximate position 4 c. This helps to prevent or inhibit a hanging implement such as the support 71 from coming into contact with the coupling part 4 z when the hanging implement is inserted in the hole 4.

As illustrated in FIG. 26C, the coupling part 4 z may include the proximate position 4 c. In this case, the coupling part 4 z preferably has a dimension S3 that is sufficiently small relative to the second dimension S2 of the hole 4. This helps to prevent or inhibit the pouch 10 from assuming an unstable posture when a hanging implement such as the support 71 is inserted in the hole 4. The dimension S3 represents the distance between the other end of the first outline 4 x and the other end of the second outline 4 y. The ratio of the dimension S3 to the second dimension S2 is, for example, less than or equal to 5/10. The above-mentioned ratio may be less than or equal to 4/10, may be less than or equal to 3/10, or may be less than or equal to 2/10.

FIG. 27 illustrates the pouches 10 hung on the hanging implement 70, the pouches 10 each including the hole 4 illustrated in FIG. 26A. In hanging the pouch 10 onto the hanging implement 70, the portion 4 a, which is a portion of the packaging material that overlaps the hole 4, is pushed by the support 71 that has reached the hole 4 after passing through the communication part 5. The support 71 can be thus inserted into the hole 4 as illustrated in FIG. 27 .

(Modification of Positioning of Hole and Communication Part)

The foregoing description of the embodiment is directed to an example in which the hole 4 is located in the middle portion of the first-edge seal 21 in the second direction D2, and the communication part 5 extends from the hole 4 to the first edge 11. However, there are no particular limitations on the positioning of the hole 4 and the communication part 5, as long as such positioning allows the pouch 10 to be hung on the hanging implement 70. For example, as illustrated in FIG. 28 , the hole 4 may be located near the third edge 13 relative to the middle portion of the first-edge seal 21 in the second direction D2.

In the example illustrated in FIG. 28 as well, the communication part 5 is connected with the hole 4 at a position that is spaced apart from the proximate position 4 c in a direction orthogonal to the center-of-gravity direction. This helps to prevent or inhibit the hanging implement inserted in the hole 4 from passing through the communication part 5 due to the self-weight of the pouch 10.

(Modification of Positioning of Hole and Communication Part)

As illustrated in FIG. 29 , the first edge 11 of the pouch 10 may include a first side 11 a, and a second side 11 b located near the containment part 8 relative to the first side 11 a. In the example illustrated in FIG. 29 , the first side 11 a and the second side 11 b both extend in the second direction D2.

The first side 11 a may be located in the middle portion of the first edge 11 in the second direction D2. In this case, one second side 11 b may be located near the third edge 13 relative to the first side 11 a, and another second side 11 b may be located near the fourth edge 14 relative to the first side 11 a. The hole 4 and the communication part 5 may be provided in the first-edge seal 21 located between the first side 11 a of the first edge 11 and the containment part 8.

(Modification of Reinforcement)

FIG. 30 is a cross-sectional view of a modification of the reinforcement 55. The reinforcement 55 may include a packaging material that includes at least a base layer 56 and a sealant layer 57. For example, as illustrated in FIG. 30 , the reinforcement 55 may include a packaging material folded in such a way that the sealant layer 57 faces outward. The sealant layer 57 of the reinforcement 55 that is located near the first packaging material 30A, and the first sealant layer 61 of the first packaging material 30A may be integrated together through a heat seal process. Likewise, the sealant layer 57 of the reinforcement 55 that is located near the second packaging material 30B, and the second sealant layer 62 of the second packaging material 30B may be integrated together through a heat seal process.

In the example illustrated in FIG. 30 , the reinforcing part 21 a includes four sheets of packaging material each including a base layer and a sealant layer. Specifically, the reinforcing part 21 a includes the following sheets of packaging material arranged in the order stated below from the first face 1 toward the second face 2: the first packaging material 30A; a packaging material constituting the reinforcement 55: a packaging material constituting the reinforcement 55; and the second packaging material 30B. The presence of the four sheets of packaging material in the reinforcing part 21 a helps to increase the strength of the pouch 10 around the periphery of each of the hole 4 and the communication part 5.

The packaging material constituting the reinforcement 55 may be identical to the first packaging material 30A or the second packaging material 30B. That is, the reinforcement 55 may be formed by using the first packaging material 30A or the second packaging material 30B. This enables efficient manufacture of the pouch 10 including the reinforcing part 21 a.

FIG. 31 illustrates an exemplary method for manufacturing a pouch including the reinforcement illustrated in FIG. 30 . First, as illustrated in FIG. 31 , the first packaging material 30A and the second packaging material 30B are placed to face each other. The reinforcement 55 made of a packaging material folded with the sealant layer facing outward as described above is inserted in between the first packaging material 30A and the second packaging material 30B to thereby form a multilayer body. In this state, the multilayer body is heat sealed at a predetermined sealing temperature to form the first-edge seal 21, the third-edge seal 23, and the fourth-edge seal 24. Subsequently, the multilayer body is punched with a machining tool including a blade and a punching die to thereby form the hole 4 and the communication part 5. Further, the multilayer body is cut at locations in the first direction D1 that are to become the third edge 13 and the fourth edge 14. In this way, the pouch 10 including the reinforcing part 21 a, the hole 4, and the communication part 5 can be obtained.

Although the reinforcement 55 is depicted as being made of a folded packaging material in the example illustrated in FIGS. 30 and 31 , this is not intended to be limiting. For example, although not illustrated, two sheets of packaging material each including a base layer and a sealant layer may be stacked with their sealant layers facing outward to thereby form the reinforcement 55. Such two sheets of packaging material may be obtained by folding up a single sheet of packaging material and then cutting the sheet in the vicinity of the fold.

As with the first packaging material 30A and the second packaging material 30B illustrated in FIGS. 6 and 7 , the packaging material constituting the reinforcement 55 illustrated in FIG. 30 may include layers other than the base layer 56 and the sealant layer 57.

(Modification of Reinforcing Part)

The foregoing description of the embodiment is directed to an example in which the reinforcing part 21 a extends in the second direction D2 so as to reach the third edge 13 and the fourth edge 14. However, the area over which the reinforcing part 21 a extends is not particularly limited as long as the reinforcing part 21 a surrounds the hole 4. For example, as illustrated in FIG. 32 , the reinforcing part 21 a may not reach the third edge 13 or the fourth edge 14. In this case, in plan view, a seal where the first packaging material 30A and the second packaging material 30B are joined together may be located between the reinforcing part 21 a, and the third edge 13 or the fourth edge 14.

(Modification of Pouch)

The foregoing description of the embodiment is directed to an example in which the pouch 10 includes the reinforcing part 21 a surrounding the hole 4 in plan view. However, this is not intended to be limiting. Alternatively, as illustrated in FIG. 33 , the pouch 10 may not include the reinforcing part 21 a surrounding the hole 4. Even in such a case, by forming the first packaging material 30A and the second packaging material 30B such that the second region 20 has sufficient strength, it is possible to prevent or inhibit a region around the periphery of each of the hole 4 and the communication part 5 from deforming to cause the pouch 10 to fall off the hanging implement.

(Modification of Pouch)

The foregoing description of the embodiment is directed to an example in which the pouch 10 is a so-called four-side seal pouch with a seal provided along each of the first edge 11, the second edge 12, the third edge 13, and the fourth edge 14. However, the pouch 10 may not necessarily be a four-side seal pouch. For example, the pouch 10 may be a so-called three-side seal pouch with a seal provided along three of the four edges including the first edge 11, the second edge 12, the third edge 13, and the fourth edge 14. FIG. 34 is a front view of a three-side seal pouch with no contents contained therein. FIG. 35 is a front view of the three-side seal pouch with its contents contained therein.

The pouch 10 illustrated in each of FIGS. 34 and 35 is formed by folding over a packaging material along the fourth edge 14. In this case, the pouch 10 includes the following seals: the first-edge seal 21 extending along the first edge 11; and the third-edge seal 23 extending along the third edge 13. After the containment part 8 of the pouch 10 is filled with the contents inserted through the opening 9 located near the second edge 12, the second-edge seal 22 is formed along the second edge 12 as illustrated in FIG. 35 .

In the example illustrated in each of FIGS. 34 and 35 , the first packaging material 30A constituting the first face 1, and the second packaging material 30B constituting the second face 2 are each formed by a single sheet of packaging material folded over along the fourth edge 14. Accordingly, the layer structure of the first packaging material 30A is identical to the layer structure of the second packaging material 30B. In the example illustrated in each of FIGS. 34 and 35 , the first direction D1 may be the machine direction of the first packaging material 30A and the second packaging material 30B, and the second direction D2 may be the transverse direction.

(Modification of Pouch)

FIG. 36 is a front view of a modification of the pouch 10. As illustrated in FIG. 36 , the pouch 10 may be a gusseted pouch configured to be capable of standing by itself with the second edge 12 facing down. The pouch 10 includes, in addition to the first packaging material 30A constituting the first face 1 and the second packaging material 30B constituting the second face 2, a third packaging material located at or near the second edge 12 and constituting a third face 3. The third packaging material is folded over along a folding part 3 f, and disposed between the first packaging material 30A and the second packaging material 30B in the folded state. In the example illustrated in FIG. 36 , the second direction D2 may be the machine direction of each of the first packaging material 30A, the second packaging material 30B, and the third packaging material, and the first direction D1 may be the transverse direction.

As with the first packaging material 30A and the second packaging material 30B, the third packaging material constituting the third face 3 includes a base layer, and a sealant layer located adjacent to the inner face of the base layer. The second-edge seal 22 extending along the second edge 12 is formed by joining together the first sealant layer 61 of the first packaging material 30A and the sealant layer of the third packaging material, and by joining together the second sealant layer 62 of the second packaging material 30B and the sealant layer of the third packaging material.

(Modification of Pouch)

FIG. 37 is a front view of a modification of the pouch 10. As illustrated in FIG. 37 , the pouch 10 may be a pillow pouch including a fin seal part 7 extending in the first direction D1 from the first edge 11 to the second edge 12. In the example illustrated in FIG. 37 , the fin seal part 7 is located on the first face 1. Although not illustrated, the fin seal part 7 may be located on the second face 2. In the example illustrated in FIG. 37 , the first direction D1 may be the machine direction of the first packaging material 30A and the second packaging material 30B, and the second direction D2 may be the transverse direction.

FIG. 38 is a cross-sectional view of the pouch 10 taken along a line C-C in FIG. 37 . The fin seal part 7 includes a base portion 7 a located adjacent to the containment part 8, and a distal end portion 7 b located opposite to the base portion 7 a. The fin seal part 7 includes a seal located between the base portion 7 a and the distal end portion 7 b and where the respective first sealant layers 61 of two sheets of first packaging material 30A located at the first face 1 are joined together. Although not illustrated, if the fin seal part 7 is located on the second face 2, the fin seal part 7 includes a seal located between the base portion 7 a and the distal end portion 7 b and where the respective second sealant layers 62 of two sheets of second packaging material 30B located at the second face are joined together.

The base portion 7 a of the fin seal part 7 may be located near the third edge 13 or the fourth edge 14 relative to the middle portion of the pouch 10 in the second direction D2. In the example illustrated in FIG. 37 , the base portion 7 a of the fin seal part 7 is located near the third edge 13 relative to the middle portion of the pouch 10 in the second direction D2. This helps to ensure that the fin seal part 7 does not overlap the hole 4 and the communication part 5. Although not illustrated, the base portion 7 a of the fin seal part 7 may be disposed in the middle portion of the pouch 10 in the second direction D2, and the hole 4 and the communication part 5 may be disposed near the third edge 13 or the fourth edge 14 relative to the middle portion of the pouch 10 in the second direction D2.

(Modification of Pouch)

FIGS. 37 and 38 described above illustrate an example in which the fin seal part 7 does not overlap the hole 4 and the communication part 5. However, this is not intended to be limiting. Alternatively, as illustrated in FIG. 39 , the fin seal part 7 may overlap the hole 4 and the communication part 5. In this case, the fin seal part 7 preferably has a larger dimension in the second direction D2 than the hole 4. In the example illustrated in FIG. 39 , the first direction D1 may be the machine direction of the first packaging material 30A and the second packaging material 30B, and the second direction D2 may be the transverse direction.

As illustrated in FIG. 39 , the base portion 7 a of the fin seal part 7 may be slightly offset toward the third edge 13 or the fourth edge 14 from the middle portion of the pouch 10 in the second direction D2. This configuration allows the fin seal part 7 to overlap the hole 4 and the communication part 5 while allowing the hole 4 and the communication part 5 to be positioned in the middle portion of the first-edge seal 21 in the second direction D2.

In FIG. 39 , reference sign K1 denotes the distance in the second direction D2 from the third edge 13 to the base portion 7 a. Reference sign K2 denotes the distance in the second direction D2 from the fourth edge 14 to the base portion 7 a. The distance K1 is greater than the distance K2. In other words, the base portion 7 a is located near the fourth edge 14 relative to the middle portion of the pouch 10 in the second direction D2. The difference between the distance K1 and the distance K2 corresponds to the dimension of the hole 4. The difference between the distance K1 and the distance K2 is, for example, greater than or equal to 5 mm and less than or equal to 50 mm.

As illustrated in FIG. 39 , the first-edge seal 21 may not include the reinforcing part 21 a. Even in such a case, according to this modification, the pouch 10 can be provided with sufficient strength in a portion around the periphery of each of the hole 4 and the communication part 5. The reason for this is described below with reference to FIG. 40 . FIG. 40 is a cross-sectional view of the pouch 10 taken along a line D-D in FIG. 39 .

As illustrated in FIG. 40 , the fin seal part 7 includes two sheets of first packaging material 30A stacked on each other. Consequently, a portion of the pouch 10 around the periphery of the hole 4 includes the following sheets of packaging material arranged in the order stated below from the fin seal part 7 toward the second face 2: two sheets of first packaging material 30A constituting the fin seal part 7; the first packaging material 30A constituting the first face 1; and the second packaging material 30B constituting the second face 2. That is, a portion of the pouch 10 around the periphery of the hole 4 includes four sheets of packaging material each including a base layer and a sealant layer. This configuration makes it possible to increase the strength of the pouch 10 around the periphery of each of the hole 4 and the communication part 5.

(Modification of Pouch)

FIG. 41 is a front view of a modification of the pouch 10. As illustrated in FIG. 41 , the pouch 10 may be a side gusset pouch having the fin seal part 7 and provided with a folding part 13 f and a folding part 14 f, the folding part 13 f extending along the third edge 13, the folding part 14 f extending along the fourth edge 14. At the locations of the folding part 13 f and the folding part 14 f, a packaging material identical to the first packaging material 30A and the second packaging material 30B is folded over. In the example illustrated in FIG. 39 , the first direction D1 may be the machine direction of the first packaging material 30A and the second packaging material 30B, and the second direction D2 may be the transverse direction.

(Modification of Pouch)

FIG. 42 is a front view of a modification of the pouch 10. The pouch 10 may include a zipper tape 16 attached to the inner face of the first packaging material 30A and the inner face of the second packaging material 30B. The zipper tape 16 is located near the second edge 12 relative to the easy-opening means 15, and extends in the second direction D2. The zipper tape 16 includes, for example, a protruding tape attached to the inner face of the first packaging material 30A, and a recessed tape attached to the inner face of the second packaging material 30B and capable of mating engagement with the protruding tape. The zipper tape 16 provided to the pouch 10 allows for easy resealing of the pouch 10 after the pouch 10 is opened.

(Modification of Hanging Implement)

The foregoing description of the embodiment is directed to an example in which the support 71 of the hanging implement 70 has the shape of a circle in cross-section. However, this is not intended to be limiting. Alternatively, the support 71 may have other shapes in cross-section.

FIG. 43 is a perspective view of a modification of the hanging implement 70. As illustrated in FIG. 43 , the support 71 of the hanging implement 70 may include a flat face 71 f located at the top.

FIG. 44 is a cross-sectional view of the support 71 when inserted in the hole 4 of the pouch 10. The flat face 71 f of the support 71 is configured such that when the support 71 is inserted in the hole 4 of the pouch 10, the flat face 71 f does not overlap the first connection point 5 x 1 of the first line 5 x of the communication part 5 in the vertical direction.

As illustrated in FIG. 44 , the support 71 may have the shape of a triangle in cross-section. In this case, the support 71 may be configured such that one side of the triangle is located at an upper position. In the example illustrated in FIG. 44 , the support 71 is placed such that one side of its triangular cross-section is positioned uppermost in a horizontal manner, and one vertex opposite to the one side of the triangular cross-section is positioned lowermost. As for the term “horizontal”, it suffices that the above-mentioned one side be positioned substantially horizontally, and the term conceptually includes technical errors during manufacture or installation.

(Modification of Hanging Implement)

FIG. 45 is a cross-sectional view of a modification of the support 71 of the hanging implement 70. As illustrated in FIG. 45 , the support 71 may have the shape of a hexagon in cross-section. In this case, the support 71 may be configured such that one side of the hexagon is located at an upper position.

(Modification of Hanging Implement)

FIG. 46 is a perspective view of a modification of the hanging implement 70. As illustrated in FIG. 46 , the support 71 may include the flat face 71 f located at the top, and the restraint part 72 may have a circular cross-section. As described above, the cross-section of the restraint part 72 may differ in shape from the cross-section of the support 71. The circular cross-section of the restraint part 72 allows the hole 4 of the pouch 10 to be easily passed through the support 71 via the restraint part 72. As described above, it is also possible to directly pass the support 71 through the hole 4 via the communication part 5.

(Modification of Hanging Implement)

As illustrated in FIG. 47 , the support 71 may be a thin component such as a thread, a rope, or a string. In this case as well, the communication part 5 is connected with the hole 4 at a position that is spaced apart from the proximate position 4 c in a direction orthogonal to the center-of-gravity direction. This helps to prevent or inhibit the support 71 from passing through the communication part 5.

(Modification of Package)

The foregoing description of the embodiment and its modifications is directed to an example in which the hole 4 and the communication part 5 are provided in the second region 20 of the pouch 10. However, the package including the hole 4 and the communication part 5 is not limited to the pouch 10.

This modification is directed to an example in which the package is a lidded container 17. FIG. 48 is a plan view of the lidded container 17 as seen from a lid 17 a. The lidded container 17 includes a container 17 b, which includes the containment part 8 and a flange 17 c, and the lid 17 a, which is joined to the flange 17 c of the container 17 b.

In the example illustrated in FIG. 48 , as with the pouch 10, the lidded container 17 has an outer edge that includes the first edge 11, the second edge 12 located opposite to the first edge 11 in the first direction D1, and the third edge 13 and the fourth edge 14, which extend between the first edge 11 and the second edge 12. That is, the outer edge of the lidded container 17 has the shape of a quadrangle.

The shape of the outer edge of the lidded container 17 in plan view is not particularly limited. For example, although not illustrated, the outer edge of the lidded container 17 may have a circular shape in plan view.

As with the pouch 10, the lidded container 17 includes a seal where the inner face of a first packaging material constituting the lid 17 a, and the inner face of a second packaging material constituting the container 17 b are joined together. In the example illustrated in FIG. 48 , the seal on the lidded container 17 includes the first-edge seal 21 extending along the first edge 11, the second-edge seal 22 extending along the second edge 12, the third-edge seal 23 extending along the third edge 13, and the fourth-edge seal 24 extending along the fourth edge 14.

For this modification as well, as in the case of the pouch 10, a region of the lidded container 17 that overlaps the containment part 8 in plan view is referred to as first region 19. Further, a region of the lidded container 17 located between the containment part 8 and the outer edge of the lidded container 17 and including a seal that joins the first packaging material and the second packaging material together is referred to as second region 20.

As with the pouch 10, the lidded container 17 includes the hole 4, which is located in the second region 20 and penetrates the first packaging material and the second packaging material. In the example illustrated in FIG. 48 , the hole 4 is located in the first-edge seal 21 of the second region 20 between the first edge 11 of the lidded container 17 and the containment part 8. The lidded container 17 includes the communication part 5, which extends from the hole 4 to the outer edge of the lidded container 17 and penetrates the first packaging material and the second packaging material. In the example illustrated in FIG. 48 as well, the communication part 5 is connected with the hole 4 at a position that is spaced apart from the proximate position 4 c in a direction orthogonal to the center-of-gravity direction. The hole 4 and the communication part 5 are identical in configuration to the hole 4 and the communication part 5 of the pouch 10, and thus not described in further detail below.

FIG. 49 is a cross-sectional view of the lidded container 17 taken along a line E-E in FIG. 48 . FIG. 50 is an enlarged cross-sectional view of the first-edge seal 21 and the containment part 8 of the lidded container 17 illustrated in FIG. 49 .

In the example illustrated in FIG. 50 , the first packaging material 30A constituting the lid 17 a includes at least the first base layer 51, and the first sealant layer 61 located adjacent to the inner face of the first base layer 51. The first packaging material 30A constituting the lid 17 a may be similar in configuration to the first packaging material 30A constituting the pouch 10.

In the example illustrated in FIG. 50 , the second packaging material 30B constituting the container 17 b includes at least the second base layer 52. A suitable exemplary material for the second base layer 52 is an unoriented plastic film such as a cast unoriented polypropylene film or an unoriented nylon film. The second base layer 52 may be made of a single layer, or may include a plurality of layers. For example, the second base layer 52 may be a co-extrusion sheet including a first layer made of polypropylene, a second layer made of EVOH or nylon, and a third layer made of polypropylene. EVOH refers to an ethylene-vinyl alcohol copolymer. Although not illustrated, the second packaging material 30B may include layers other than the second base layer 52. The second packaging material 30B has a thickness of, for example, greater than or equal to 150 μm and less than or equal to 800 μm.

The container 17 b can be fabricated by processing the second packaging material 30B by sheet forming. Sheet forming is a method involving heating and softening a packaging material such as a sheet material, and pressing a die against the resulting material to form a desired shape in the sheet. For example, vacuum forming, air-pressure forming, vacuum/air-pressure forming, or press forming may be employed. The container 17 b may be formed by other methods such as injection molding.

As with the first packaging material 30A of the pouch 10, the first packaging material 30A constituting the lid 17 a includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 50 , the first base layer 51 and the first sealant layer 61 of the first packaging material 30A are located in both the first region 19 and the second region 20.

The second packaging material 30B constituting the container 17 b likewise includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 50 , the second base layer 52 of the second packaging material 30B is located in both the first region 19 and the second region 20.

According to this modification as well, due to the presence of the hole 4 and the communication part 5 in the second region 20 of the lidded container 17, the support 71 can be inserted into the hole 4 via the communication part 5. This allows the lidded container 17 to be attached to or removed from the support 71 at a desired location on the support 71.

(Modification of Second Packaging Material of Lidded Container)

FIG. 51 is a cross-sectional view of a modification of the second packaging material 30B of the lidded container 17. As with FIG. 50 , FIG. 51 is an enlarged view of the first-edge seal and the containment part of the lidded container illustrated in FIG. 49 .

As illustrated in FIG. 51 , the second packaging material 30B constituting the container 17 b may include the second base layer 52, and the second sealant layer 62 located adjacent to the inner face of the second base layer 52. The second base layer 52 may include an oriented plastic film oriented along at least one axis, preferably along two axes. The second sealant layer 62 to be used may be the same as the second sealant layer 62 of the second packaging material 30B of the pouch 10. The second packaging material 30B has a thickness of, for example, greater than or equal to 60 μm and less than or equal to 200 μm.

(Mechanical Characteristics of Second Region of Lidded Container)

For a case where the package is a lidded container as well, as in the case of the pouch 10, a portion of the second region 20 where the hole 4 is located preferably has a predetermined flexural rigidity in at least one direction. For example, the above-mentioned portion preferably has a mean flexural rigidity of greater than or equal to 15 g·cm²/cm. The above-mentioned portion preferably has an initial flexural rigidity of greater than or equal to 22 g·cm²/cm.

For a case where the package is a lidded container as well, as in the case of the pouch 10, first, the specimen 80 is cut out from a portion of the second region 20 that has the same layer structure as the portion of the second region 20 where the hole 4 is located. This allows initial flexural rigidity and mean flexural rigidity to be measured in the machine direction and the transverse direction. The preferred ranges of values for the initial flexural rigidity and the mean flexural rigidity in the machine direction and the transverse direction are identical to those in the case of the pouch 10, and thus not described in further detail below.

(Modification of Package)

Reference is now made to an example in which the package is a tube 18. FIG. 52 is a plan view of the tube 18 as seen from the first face 1. The tube 18 includes a tubular body part 18 a, and a mouth part 18 b. A cap 18 c may be attached to the mouth part 18 b.

As with the pouch 10, the body part 18 a is made of a packaging material. The body part 18 a includes a first packaging material constituting the first face 1, and a second packaging material constituting the second face 2. The containment part 8 for containing contents is provided between the first face 1 and the second face 2. In the example illustrated in FIG. 52 , the first packaging material and the second packaging material are obtained by forming a single sheet of packaging material into a tubular form.

In the example illustrated in FIG. 52 , the body part 18 a of the tube 18 has an outer edge that includes the first edge 11, the second edge 12 located opposite to the first edge 11 in the first direction D1, and the third edge 13 and the fourth edge 14, which extend between the first edge 11 and the second edge 12.

As with the pouch 10, the body part 18 a of the tube 18 includes a seal where the inner face of the first packaging material constituting the first face 1, and the inner face of the second packaging material constituting the second face 2 are joined together. In the example illustrated in FIG. 52 , the seal on the body part 18 a includes the first-edge seal 21 extending along the first edge 11.

The body part 18 a of the tube 18 includes a joint 6, which extends on the first face 1 from the first edge 11 to the second edge 12 in the first direction D1. The joint 6 includes a seal where the inner face at one end of a single sheet of packaging material constituting each of the first packaging material and the second packaging material, and the outer face at the other end of the single sheet of packaging material are joined together. Although not illustrated, the joint 6 may be located on the second face 2.

For this modification as well, as in the case of the pouch 10, a region of the body part 18 a of the tube 18 that overlaps the containment part 8 in plan view is referred to as first region 19. A region located between the containment part 8 and the outer edge of the body part 18 a and including a seal that joins the first packaging material and the second packaging material together is referred to as second region 20.

As with the pouch 10, the body part 18 a of the tube 18 includes the hole 4, which is located in the second region 20 and penetrates the first packaging material and the second packaging material. In the example illustrated in FIG. 52 , the hole 4 is located in the first-edge seal 21 of the second region 20 between the first edge 11 of the body part 18 a and the containment part 8. The body part 18 a includes the communication part 5, which extends from the hole 4 to the outer edge of the body part 18 a and penetrates the first packaging material and the second packaging material. In the example illustrated in FIG. 52 as well, the communication part 5 is connected with the hole 4 at a position that is spaced apart from the proximate position 4 c in a direction orthogonal to the center-of-gravity direction. The hole 4 and the communication part 5 are identical in configuration to the hole 4 and the communication part 5 of the pouch 10, and thus not described in further detail below.

FIG. 53 is a cross-sectional view of the body part 18 a of the tube 18 taken along a line F-F in FIG. 52 . As illustrated in FIG. 53 , the first packaging material 30A constituting the first face 1 includes at least the first base layer 51, and the first sealant layer 61 located adjacent to the inner face of the first base layer 51. The first packaging material 30A may include a third sealant layer 63 located adjacent to the outer face of the first base layer 51. By providing the third sealant layer 63, as with the joint 6 described above, the inner face at one end of the packaging material and the outer face at the other end of the packaging material can be joined together.

The first base layer 51 of the first packaging material 30A may be similar in configuration to the first base layer 51 of the first packaging material 30A that constitutes the pouch 10 or the lid 17 a mentioned above. The first sealant layer 61 and the third sealant layer 63 may be similar in configuration to the first sealant layer 61 of the first packaging material 30A that constitutes the pouch 10 or the lid 17 a mentioned above.

The second packaging material 30B constituting the second face 2 includes at least the second base layer 52, and the second sealant layer 62 located adjacent to the inner face of the second base layer 52. The second packaging material 30B may include a fourth sealant layer 64 located adjacent to the outer face of the second base layer 52. The second base layer 52, the second sealant layer 62, and the fourth sealant layer 64 of the second packaging material 30B may be similar in their material, thickness, or other configuration to the first base layer 51, the first sealant layer 61, and the third sealant layer 63 of the first packaging material 30A.

The thickness of each of the first packaging material 30A and the second packaging material 30B is, for example, greater than or equal to 150 μm. The thickness of each of the first packaging material 30A and the second packaging material 30B may be greater than or equal to 200 μm, or may be greater than or equal to 250 μm. The thickness of each of the first packaging material 30A and the second packaging material 30B may be less than or equal to 500 μm, may be less than or equal to 400 μm, or may be less than or equal to 300 μm.

As with the first packaging material 30A of the pouch 10, the first packaging material 30A constituting the first face 1 of the body part 18 a includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 53 , the first base layer 51, the first sealant layer 61, and the third sealant layer 63 of the first packaging material 30A are located in both the first region 19 and the second region 20.

The second packaging material 30B constituting the second face 2 of the body part 18 a likewise includes at least one layer located in both the first region 19 and the second region 20. For example, as illustrated in FIG. 53 , the second base layer 52, the second sealant layer 62, and the fourth sealant layer 64 of the second packaging material 30B are located in both the first region 19 and the second region 20.

According to this modification as well, due to the presence of the hole 4 and the communication part 5 in the second region 20 of the body part 18 a of the tube 18, the support 71 can be inserted into the hole 4 via the communication part 5. This allows the tube 18 to be attached to or removed from the support 71 at a desired location on the support 71.

(Mechanical Characteristics of Second Region of Tube)

For a case where the package is a tube as well, as in the case of the pouch 10, a portion of the second region 20 where the hole 4 is located preferably has a predetermined flexural rigidity in at least one direction. For example, the above-mentioned portion preferably has a mean flexural rigidity of greater than or equal to 15 g·cm²/cm. The above-mentioned portion preferably has an initial flexural rigidity of greater than or equal to 22 g·cm²/cm.

For a case where the package is a tube as well, as in the case of the pouch 10, first, the specimen 80 is cut out from a portion of the second region 20 that has the same layer structure as the portion of the second region 20 where the hole 4 is located. This allows initial flexural rigidity and mean flexural rigidity to be measured in the machine direction and the transverse direction. The preferred ranges of values for the initial flexural rigidity and the mean flexural rigidity in the machine direction and the transverse direction are identical to those in the case of the pouch 10, and thus not described in further detail below.

(Exemplary Combinations of Embodiment and Modifications)

The characteristic features of the embodiment and its modifications described above can be combined with each other as appropriate.

For example, the modifications of the communication part 5 illustrated in FIGS. 12 to 17 may be combined with the modifications of the pouch illustrated in FIGS. 34 to 42 , may be combined with the lidded container 17 illustrated in each of FIGS. 48 to 51 , or may be combined with the tube 18 illustrated in each of FIGS. 52 and 53 . Further, the modifications of the hole 4 and the communication part 5 illustrated in FIGS. 18 to 26C may be combined with the modifications of the pouch illustrated in FIGS. 34 to 42 , may be combined with the lidded container 17 illustrated in each of FIGS. 48 to 51 , or may be combined with the tube 18 illustrated in each of FIGS. 52 and 53 .

EXAMPLES

Examples of the present invention are described below in more specific detail. It is to be noted, however, that the present invention is not limited to the examples described below unless such examples depart from the scope of the invention.

Example A1

The specimen 80 including four stacked sheets of packaging material was created. Each single sheet of packaging material has a thickness of 82 μm. The overall thickness of the specimen 80 was thus 328 μm. The specimen 80 described above has a layer structure that corresponds to the layer structure illustrated in FIG. 39 , that is, the layer structure of a region around the periphery of the hole 4 formed in the fin seal part 7, or to the layer structure illustrated in FIG. 30 , that is, the layer structure of a region around the periphery of the hole 4 formed in a region overlapping the reinforcement 55 made of a folded packaging material. Each single sheet of packaging material has a layer structure represented below.

OPP 20/PE 10/ALPET 12/PE 10/CPP 30

The symbol “I” represents the boundary between adjacent layers. The layer at the left end represents a layer defining the outer face of the packaging material, and the layer at the right end represents a layer defining the inner face of the packaging material.

“OPP” means a biaxially-oriented polypropylene film. “PE” means a poly-olefin resin layer using polyethylene. “ALPET” means a biaxially-oriented PET film with a vapor-deposited aluminum layer. “CPP” means a cast polypropylene film. The numerals denote the thicknesses of the corresponding layers (unit: μm).

The flexural rigidity of the specimen 80 in each of the machine direction and the transverse direction was measured. As the measuring instrument, a pure-bending characteristic tester JTC-911BT manufactured by SMT Co., Ltd. was used. The measurement was performed under the environment of a temperature of 25° C. and a relative humidity of 50%. The mean flexural rigidity in the machine direction was 28.1 g·cm²/cm, and the mean flexural rigidity in the transverse direction was 19.8 g·cm²/cm. The initial flexural rigidity in the machine direction was 55.0 g·cm²/cm, and the initial flexural rigidity in the transverse direction was 24.7 g·cm²/cm.

Comparative Example A1

The specimen 80 was created in the same manner as in Example A1, except that the specimen 80 is made up of two sheets of packaging material. The specimen 80 had a thickness of 164 μm.

In the same manner as in Example A1, the flexural rigidity of the specimen 80 in each of the machine direction and the transverse direction was measured. The mean flexural rigidity in the machine direction was 7.8 g·cm²/cm, and the mean flexural rigidity in the transverse direction was 9.5 g·cm²/cm. The initial flexural rigidity in the machine direction was 11.4 g·cm²/cm, and the initial flexural rigidity in the transverse direction was 14.2 g·cm²/cm.

Comparative Example A2

The specimen 80 made of a biaxially-oriented PET film was prepared. The specimen 80 had a thickness of 150 μm.

In the same manner as in Example A1, the flexural rigidity of the specimen 80 in each of the machine direction and the transverse direction was measured. The mean flexural rigidity in the machine direction was 14.7 g·cm²/cm, and the mean flexural rigidity in the transverse direction was 15.9 g·cm²/cm. The initial flexural rigidity in the machine direction was 21.2 g·cm²/cm, and the initial flexural rigidity in the transverse direction was 22.3 g·cm²/cm.

Example B1

The pouch 10 illustrated in FIG. 1A was fabricated by using the same packaging material as that used in Example A1. Specifically, the same packaging material as that used in Example A1 was used as each of the first packaging material 30A constituting the first face 1 and the second packaging material 30B constituting the second face 2. Further, the packaging material according to Example A1 folded in two as illustrated in FIG. 30 was used as the reinforcement 55 of the reinforcing part 21 a. The pouch 10 had a thickness of 328 μm around the hole 4. The hole 4 had a diameter of 8 mm.

Subsequently, a load was applied to the pouch 10 with the hanging implement 70 inserted in the hole 4 of the pouch 10 to thereby measure the maximum value of load that the pouch 10 is able to withstand. Specifically, first, as illustrated in FIG. 54 , the support 71 of the hanging implement, which has a circular cross-section with a diameter of 6 mm, was inserted into the hole 4 located near the first edge 11 of the pouch 10. Subsequently, the second edge 12 located opposite to the first edge 11 was pulled upward by using a scale 90. Specifically, as illustrated in FIG. 54 , with a hook 91 of the scale 90 hooked on a hole 92 provided at a location in the pouch 10 near the second edge 12, the scale 90 was pulled upward. The scale used was PORTABLE ELECTRONIC SCALE WH-A04 manufactured by WeiHeng.

The measurement was taken five times, and for each measurement, the maximum value of load applied to the scale was recorded. The results are illustrated in FIG. 55 . The mean of the measured maximum values of load was 209.8 g.

With the pouch 10 hung from the support 71 of the hanging implement via the hole 4 of the pouch 10, five panelists evaluated the stability of the pouch 10 by touching the pouch 10, pulling the pouch 10, or other methods. The results are illustrated in FIG. 55 . Panelists 1 to 5 all evaluated the pouch 10 as “great”. The evaluation “great” means that the pouch 10 did not fall when a panelist touched the pouch 10, and that the pouch 10 hardly fell when the panelist twisted the pouch 10.

Reference Example B1

The pouch 10 illustrated in FIG. 57 was fabricated by using the same packaging material as that used in Example A1. In the example illustrated in FIG. 57 , the communication part 5 is connected with the hole 4 at the proximate position 4 c. The pouch 10 had a thickness of 328 μm around the hole 4.

Subsequently, in the same manner as in Example B1, the maximum value of load that the pouch 10 is able to withstand was measured. The results are illustrated in FIG. 55 . The mean of the measured maximum values of load was 143.2 g.

In same manner as in Example B1, five panelists evaluated the stability of the pouch 10 hung on the support 71 of the hanging implement. The results are illustrated in FIG. 56 . Panelists 1 to 5 all evaluated the pouch 10 as “good”. The evaluation “good” means that the pouch 10 did not fall when a panelist touched the pouch 10 but fell when the panelist twisted the pouch 10.

Reference Example B2

The pouch 10 was fabricated in the same manner as in Reference Example B1, except that the pouch 10 does not include the reinforcing part 21 a. The pouch 10 had a thickness of 164 μm around the hole 4.

Subsequently, in the same manner as in Reference Example B1, the maximum value of load that the pouch 10 is able to withstand was measured. The results are illustrated in FIG. 55 . The mean of the measured maximum values of load was 47.8 g.

In same manner as in Example B1, five panelists evaluated the stability of the pouch 10 hung on the support 71 of the hanging implement. The results are illustrated in FIG. 56 . Panelists 1 to 5 all evaluated the pouch 10 as “bad”. The evaluation “bad” means that the pouch 10 fell when a panelist simply touched the pouch 10.

REFERENCE SIGNS LIST

-   -   1 first face     -   2 second face     -   4 hole     -   4 c proximate position     -   5 communication part     -   5 c curved portion     -   5 x first line     -   5 x 1 first connection point     -   5 y second line     -   6 joint     -   7 fin seal part     -   7 a base portion     -   7 b distal end portion     -   8 containment part     -   9 opening     -   10 pouch     -   11 first edge     -   12 second edge     -   13 third edge     -   14 fourth edge     -   15 easy-opening means     -   15 a slit     -   16 zipper tape     -   17 lidded container     -   17 a lid     -   17 b container     -   17 c flange     -   18 tube     -   18 a body part     -   18 b mouth part     -   18 c cap     -   19 first region     -   20 second region     -   20 x claw portion     -   21 first-edge seal     -   21 a reinforcing part     -   21 b outer-edge-side seal     -   21 c containment-part-side seal     -   22 second-edge seal     -   23 third-edge seal     -   24 fourth-edge seal     -   30 packaging material     -   30A first packaging material     -   30B second packaging material     -   51 first base layer     -   52 second base layer     -   53 first additional layer     -   54 second additional layer     -   55 reinforcement     -   56 base layer     -   57 sealant layer     -   61 first sealant layer     -   62 second sealant layer     -   65 first bonding layer     -   66 second bonding layer     -   67 third bonding layer     -   68 fourth bonding layer     -   70 hanging implement     -   71 support     -   72 restraint part     -   73 fixed part     -   80 specimen     -   85 measuring instrument     -   86 first clamp     -   87 second clamp     -   D1 first direction     -   D2 second direction 

1. A pouch, the pouch having a containment part formed by joining a first packaging material and a second packaging material together, the first packaging material being located at a first face of the pouch, the second packaging material being located at a second face of the pouch, the pouch comprising: a first region overlapping the containment part in plan view; a second region located between the containment part and an outer edge of the pouch in plan view, the second region including a seal that joins the first packaging material and the second packaging material together; a hole located in the second region and penetrating the first packaging material and the second packaging material; and a communication part extending from the hole to the outer edge of the pouch and penetrating the first packaging material and the second packaging material, wherein the first packaging material includes at least one layer located in both the first region and the second region, wherein the second packaging material includes at least one layer located in both the first region and the second region, wherein the outer edge of the pouch includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction, wherein the hole includes a proximate position where a distance between the hole and the outer edge of the pouch in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the pouch and a center of the hole extends, wherein the communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction, wherein an outline of the communication part that extends from the hole to the outer edge includes a first line and a second line, wherein the first line is located closer to the proximate position than is the second line, and wherein in the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.
 2. The pouch according to claim 1, wherein the communication part is connected with the hole at a position that is spaced apart from the proximate position in a second direction orthogonal to the first direction, and wherein in the first direction, the first connection point where the first line is connected with the hole is located closer to the second edge than is the proximate position.
 3. The pouch according to claim 1, wherein the first line and the second line are at least partially in contact with each other.
 4. The pouch according to claim 3, wherein the communication part includes a slit where the first line and the second line are in contact with each other, and a notch located closer to the outer edge than is the slit and where the first line and the second line are not in contact with each other.
 5. The pouch according to claim 1, wherein the first line and the second line are not in contact with each other.
 6. (canceled)
 7. The pouch according to claim 1, wherein the proximate position and the first connection point have a distance from each other of greater than or equal to 2 mm in the direction orthogonal to the center-of-gravity direction.
 8. The pouch according to claim 1, wherein a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.
 9. The pouch according to claim 1, wherein the second region includes: an outer-edge-side seal extending along the outer edge of the pouch; a containment-part-side seal in contact with the containment part in plan view; and a reinforcing part located between the outer-edge-side seal and the containment-part-side seal and surrounding the hole, the reinforcing part being thicker than the outer-edge-side seal and the containment-part-side seal.
 10. The pouch according to claim 9, wherein the reinforcing part includes a reinforcement located between the first packaging material and the second packaging material.
 11. A lidded container, the lidded container having a containment part sealed by joining a first packaging material and a second packaging material together, the first packaging material constituting a lid, the second packaging material constituting a container, the lidded container comprising: a first region overlapping the containment part in plan view; a second region located between the containment part and an outer edge of each of the lid and the container in plan view, the second region including a seal that joins the first packaging material and the second packaging material together; a hole located in the second region and penetrating the first packaging material and the second packaging material; and a communication part extending from the hole to the outer edge of each of the lid and the container and penetrating the first packaging material and the second packaging material, wherein the first packaging material includes at least one layer located in both the first region and the second region, wherein the second packaging material includes at least one layer located in both the first region and the second region, wherein the outer edge of each of the lid and the container includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction, wherein the hole includes a proximate position where a distance between the hole and the outer edge of the lidded container in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the lidded container and a center of the hole extends, wherein the communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction, wherein an outline of the communication part that extends from the hole to the outer edge includes a first line and a second line, wherein the first line is located closer to the proximate position than is the second line, and wherein in the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.
 12. The lidded container according to claim 11, wherein a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.
 13. A tube, the tube having a containment part formed by joining a first packaging material and a second packaging material together, the first packaging material being located at a first face of the tube, the second packaging material being located at a second face of the tube, the tube comprising: a first region overlapping the containment part in plan view; a second region located between the containment part and an outer edge of the tube in plan view, the second region including a seal that joins the first packaging material and the second packaging material together; a hole located in the second region and penetrating the first packaging material and the second packaging material; and a communication part extending from the hole to the outer edge of the tube and penetrating the first packaging material and the second packaging material, wherein the first packaging material includes at least one layer located in both the first region and the second region, wherein the second packaging material includes at least one layer located in both the first region and the second region, wherein the outer edge of the tube includes a first edge where the communication part is located, a second edge that is opposite to the first edge in a first direction, and a third edge and a fourth edge that are located between the first edge and the second edge and are opposite to each other in a second direction orthogonal to the first direction, wherein the hole includes a proximate position where a distance between the hole and the outer edge of the tube in a center-of-gravity direction is shortest, the center-of-gravity direction being a direction in which a center-of-gravity line passing through a center of the tube and a center of the hole extends, wherein the communication part is connected with the hole at a position that is spaced apart from the proximate position in a direction orthogonal to the center-of-gravity direction, wherein an outline of the communication part that extends from the hole to the outer edge includes a first line and a second line, wherein the first line is located closer to the proximate position than is the second line, and wherein in the center-of-gravity direction, a distance from a first connection point to the outer edge is greater than a distance from the proximate position to the outer edge, the first connection point being a point where the first line is connected with the hole.
 14. The tube according to claim 13, wherein a specimen cut out from a portion of the second region where the hole is located has a mean flexural rigidity of greater than or equal to 15 [g·cm²/cm] in a machine direction, the specimen including at least the first packaging material and the second packaging material.
 15. The pouch according to claim 1, wherein the second region is located between the first edge and the containment part, wherein the first edge at which the communication part is located extends in the second direction, wherein the first line includes a curved portion located at a position where the first line is connected with the first edge and having a curvature radius (R1), and wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and having a curvature radius (R2) greater than the curvature radius (R1).
 16. The pouch according to claim 1, wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and a straight portion extending linearly from the hole toward the first edge, and wherein the curved portion of the second line does not overlap the hole when viewed in the first direction.
 17. The lidded container according to claim 11, wherein the second region is located between the first edge and the containment part, wherein the first edge at which the communication part is located extends in the second direction, wherein the first line includes a curved portion located at a position where the first line is connected with the first edge and having a curvature radius (R1), and wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and having a curvature radius (R2) greater than the curvature radius (R1).
 18. The lidded container according to claim 11, wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and a straight portion extending linearly from the hole toward the first edge, and wherein the curved portion of the second line does not overlap the hole when viewed in the first direction.
 19. The tube according to claim 13, wherein the second region is located between the first edge and the containment part, wherein the first edge at which the communication part is located extends in the second direction, wherein the first line includes a curved portion located at a position where the first line is connected with the first edge and having a curvature radius (R1), and wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and having a curvature radius (R2) greater than the curvature radius (R1).
 20. The tube according to claim 13, wherein the second line includes a curved portion located at a position where the second line is connected with the first edge and a straight portion extending linearly from the hole toward the first edge, and wherein the curved portion of the second line does not overlap the hole when viewed in the first direction. 